一种基于数字孪生技术的fims系统架构设计方法.

一种基于数字孪生技术的fims系统架构设计方法

Номер патента: CN113093680A
Опубликовано: 09-07-2021
Автор(ы): 孙强, 施成章, 谷富强
Принадлежит: Shanghai Dianji University
Получить PDF файл: Открыть в новом окне

Рисунок 1. Взаимосвязь патентов (ближайшие 20).

Computer-implemented method and orchestration system to orchestrate configurations of simulations based on digital twin models of modular plants

Номер патента: EP4348361A1. Автор: Harald Held,Andres Botero Halblaub,Jan Götz. Владелец: SIEMENS AG. Дата публикации: 2024-04-10.

Computer-implemented method and orchestration system to orchestrate configurations of simulations based on digital twin models of modular plants

Номер патента: US20240346205A1. Автор: Harald Held,Andres Botero Halblaub,Jan Götz. Владелец: SIEMENS AG. Дата публикации: 2024-10-17.

Virtual simulation manufacturing platform based on automatic control

Номер патента: US12050456B2. Автор: Li He,Baixue CHEN. Владелец: TIANJIN UNIVERSITY. Дата публикации: 2024-07-30.

Aviation industry cluster-oriented manufacturing process management and control system architecture

Номер патента: EP4310764A1. Автор: XING Zheng,CAN Wang,Min Zhang,Na Zhang,AiMing XU,JingGuo SHU. Владелец: Chengdu Aircraft Industrial Group Co Ltd. Дата публикации: 2024-01-24.

Generating a digital twin, method, system, computer program product

Номер патента: US11868685B2. Автор: Lutz Keferstein. Владелец: Siemens Industry Software NV. Дата публикации: 2024-01-09.

Generating a digital twin, method, system, computer program product

Номер патента: EP4204912A1. Автор: Lutz Keferstein. Владелец: Siemens Industry Software NV. Дата публикации: 2023-07-05.

Generating a digital twin, method, system, computer program product

Номер патента: US20230325553A1. Автор: Lutz Keferstein. Владелец: Siemens Industry Software NV. Дата публикации: 2023-10-12.

In-process digital twinning

Номер патента: US20230288920A1. Автор: Michael Garvey,Fred Persi,Matthew Walther. Владелец: Grale Technologies Inc. Дата публикации: 2023-09-14.

Process control with digital twins

Номер патента: US11989494B2. Автор: Kilian Grefen. Владелец: ASCon Systems Holding GmbH. Дата публикации: 2024-05-21.

Process control with digital twins

Номер патента: US11562113B2. Автор: Kilian Grefen. Владелец: ASCon Systems Holding GmbH. Дата публикации: 2023-01-24.

Process control with digital twins

Номер патента: US20200334402A1. Автор: Kilian Grefen. Владелец: ASCon Systems Holding GmbH. Дата публикации: 2020-10-22.

Process control with digital twins

Номер патента: US20230129656A1. Автор: Kilian Grefen. Владелец: ASCon Systems Holding GmbH. Дата публикации: 2023-04-27.

Modeling with digital twins

Номер патента: US20200334401A1. Автор: Kilian Grefen. Владелец: ASCon Systems Holding GmbH. Дата публикации: 2020-10-22.

Creation of a digital twin from a mechanical model

Номер патента: US12061845B2. Автор: Ian McGregor,Adam Davidson,David Dawkins. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-08-13.

AI extensions and intelligent model validation for an industrial digital twin

Номер патента: US11900277B2. Автор: Bijan Sayyarrodsari,Joachim Thomsen. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-02-13.

Blockchain-enabled digital twins for industrial automation systems

Номер патента: US20240103504A1. Автор: David A. Vasko,Kenneth W. Batcher,Juergen K. Weinhofer,Sharath Chander Reddy Baddam,Timothy S. Biernat. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-03-28.

Using a digital twin to facilitate environment-specific prognostic-surveillance operations for engineering assets in the field

Номер патента: US20200310396A1. Автор: Kenny C. Gross,Guang C. Wang. Владелец: Oracle International Corp. Дата публикации: 2020-10-01.

Method and system for creating or updating a digital twin

Номер патента: EP4150413A1. Автор: Steffen Lamparter,Georgia Olympia Brikis. Владелец: SIEMENS AG. Дата публикации: 2023-03-22.

Production line adaptation methods based on industrial internet of things, systems and storage mediums thereof

Номер патента: US20230053412A1. Автор: YONG Li,Zehua Shao,Junyan ZHOU,Yongzeng LIANG,Yuefei WU. Владелец: Chengdu Qinchuan IoT Technology Co Ltd. Дата публикации: 2023-02-23.

Method and system for creating or updating a digital twin

Номер патента: WO2022002694A1. Автор: Steffen Lamparter,Georgia Olympia Brikis. Владелец: SIEMENS AKTIENGESELLSCHAFT. Дата публикации: 2022-01-06.

Method and system for creating or updating a digital twin

Номер патента: EP3933516A1. Автор: Steffen Lamparter,Georgia Olympia Brikis. Владелец: SIEMENS AG. Дата публикации: 2022-01-05.

Digital twin-based intelligent manufacturing system with integrated synchronization controller

Номер патента: EP4292774A1. Автор: Jun Peng,Zhihui ZHANG,Baoyu Zhang,Chaorui JIANG,Ruijia LIU,Zhenglei Yu,Shaopeng ZHENG. Владелец: Jilin University. Дата публикации: 2023-12-20.

Method and system for creating or updating a digital twin

Номер патента: US20230315073A1. Автор: Steffen Lamparter,Georgia Olympia Brikis. Владелец: SIEMENS AG. Дата публикации: 2023-10-05.

Digital twin outcome-driven orchestration

Номер патента: US11868122B2. Автор: Robert Schmidt,Thong Nguyen,Jingbo Liu,Paul Schmirler. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-01-09.

Digital twin simulation discrepancy detection in multi-machine environment

Номер патента: US20230409020A1. Автор: Sarbajit K. Rakshit,Akash U. Dhoot,Saraswathi Sailaja Perumalla. Владелец: International Business Machines Corp. Дата публикации: 2023-12-21.

Method of generating a digital twin of the environment of industrial processes

Номер патента: EP4437447A1. Автор: Sanhong Zhang,Hanwen Yuan,Grant BREWER,Mengkai XU. Владелец: Watlow Electric Manufacturing Co. Дата публикации: 2024-10-02.

Building data platform with digital twin diagnostics

Номер патента: US20230359176A1. Автор: Young Lee,Ambuj Shatdal,Rajiv Ramanasankaran,Michael James Risbeck. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-11-09.

Linking a real object with a digital twin assigned to the real object

Номер патента: EP4383029A1. Автор: Florian ZEIGER,Andreas Blenk,Manuel Eppler. Владелец: SIEMENS AG. Дата публикации: 2024-06-12.

Parameterization of a digital twin and/or an automation system

Номер патента: EP4321946A1. Автор: Jochen Bretschneider. Владелец: SIEMENS AG. Дата публикации: 2024-02-14.

Parameterization of a digital twin and/or an automation system

Номер патента: US20240053725A1. Автор: Jochen Bretschneider. Владелец: Individual. Дата публикации: 2024-02-15.

Manufacturing methods and systems including digital twin managing process, lifecycle, and instance

Номер патента: US20240246297A1. Автор: Matthew Patterson,Morad Behandish,Christoforos Somarakis,Svyatoslav Korneev,Dogan Timucin,Soren Taverniers. Владелец: Xerox Corp. Дата публикации: 2024-07-25.

Inferring digital twins from captured data

Номер патента: WO2019180435A1. Автор: Christopher David SACHS. Владелец: ASPINALL, Simon. Дата публикации: 2019-09-26.

Method of generating a digital twin of the environment of industrial processes

Номер патента: CA3238681A1. Автор: Sanhong Zhang,Hanwen Yuan,Grant BREWER,Mengkai XU. Владелец: Watlow Electric Manufacturing Co. Дата публикации: 2023-05-25.

Functional safety system using three dimensional sensing and dynamic digital twin

Номер патента: EP4108393A1. Автор: Samuel Owen,John Pritchard,Michael Sarvo Jr.. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2022-12-28.

Digital twin instantiation and registration

Номер патента: EP4315807A1. Автор: Kurt Essigmann,Wolfgang TONUTTI. Владелец: Telefonaktiebolaget LM Ericsson AB. Дата публикации: 2024-02-07.

Digital twin instantiation and registration

Номер патента: US20240184275A1. Автор: Kurt Essigmann,Wolfgang TONUTTI. Владелец: Telefonaktiebolaget LM Ericsson AB. Дата публикации: 2024-06-06.

Symbolic access of industrial device systems and methods based on an on-premise gateway device

Номер патента: US12061462B2. Автор: Michael J. Anthony,David C. Mazur,Bruce T. McCleave, JR.,Jonathan Alan Mills,Rob A. Entzminger,Todd A Wiese. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-08-13.

Composable and modular intelligent digital twin architecture for iot operations with complex event processing optimization

Номер патента: WO2023167674A1. Автор: Wei Lin,Hareesh Kumar Reddy Kommepalli,Fnu AIN-UL-AISHA. Владелец: Hitachi Vantara LLC. Дата публикации: 2023-09-07.

Automated creation of digital twins using graph-based industrial data

Номер патента: WO2024118092A1. Автор: Md Ridwan IQBAL. Владелец: Siemens Corporation. Дата публикации: 2024-06-06.

Additive manufacturing-coupled digital twin ecosystem

Номер патента: EP3751369A1. Автор: Stephen Davis,Jonathan Dunsdon. Владелец: General Electric Co. Дата публикации: 2020-12-16.

Automatic control method based on human body sensing, and electronic device and system

Номер патента: EP4383031A1. Автор: Wei Dong,LU Gan,Haowei XU,Pei YAO. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2024-06-12.

Method and device for acquiring real-time characteristics of suspension system based on digital twin technology

Номер патента: GB2616348A. Автор: Wang Qiang,Li Wei,Wang Xiaojun,ZHOU Shuai,Yan An,CHENG QIN,Song Haisheng. Владелец: Shandong Jiaotong University. Дата публикации: 2023-09-06.

Digital twin enabled asset performance and upgrade management

Номер патента: GB2600820A. Автор: Moyal Shailendra,Prasad Venkata Karri Vara. Владелец: International Business Machines Corp. Дата публикации: 2022-05-11.

Digital twin advanced distribution management systems (adms) and methods

Номер патента: US20240266837A1. Автор: Jay Tillay Johnson,Adam Summers,Rachid Darbali-Zamora,Clifford W. Hansen. Владелец: National Technology and Engineering Solutions of Sandia LLC. Дата публикации: 2024-08-08.

Method of providing an engineering based digital twin platform

Номер патента: US12045028B2. Автор: Büryan TURAN,Erhan Turan. Владелец: Simularge Bilisim Ve Muehendislik Teknolojilri AS. Дата публикации: 2024-07-23.

System architecture and method of processing data therein

Номер патента: US20190377311A1. Автор: Hany S. Abdel-Khalik. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2019-12-12.

System architecture and method of processing data therein

Номер патента: WO2020046432A2. Автор: Hany S. Abdel-Khalik. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2020-03-05.

System architecture and method of processing data therein

Номер патента: US11886158B2. Автор: Hany S. Abdel-Khalik. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2024-01-30.

System architecture and method of processing data therein

Номер патента: US20210165381A1. Автор: Hany S. Abdel-Khalik. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2021-06-03.

In-Situ Inspection Method Based on Digital Data Model of Weld

Номер патента: US20210318673A1. Автор: Ryan Scott KITCHEN,Matthew Paul LEVASSEUR,Ryan Steven WACKERLY,Ross PIVOVAR. Владелец: BWXT Advanced Technologies LLC. Дата публикации: 2021-10-14.

Automatic setup of digital twins for industrial controllers

Номер патента: EP3827316A1. Автор: Georg Muenzel. Владелец: SIEMENS AG. Дата публикации: 2021-06-02.

Digital twin advanced distribution management systems (ADMS) and methods

Номер патента: US11881713B1. Автор: Jay Tillay Johnson,Adam Summers,Rachid Darbali-Zamora,Clifford W. Hansen. Владелец: National Technology and Engineering Solutions of Sandia LLC. Дата публикации: 2024-01-23.

Automatic setup of digital twins for industrial controllers

Номер патента: US11927942B2. Автор: Georg Muenzel. Владелец: SIEMENS AG. Дата публикации: 2024-03-12.

Method for constructing digital twin by combining reduced order models, measurement data and machine learning techniques for multiphysical equipment system

Номер патента: US20240061385A1. Автор: Woo Joo Han. Владелец: Pace Inc. Дата публикации: 2024-02-22.

Method for constructing digital twin by combining reduced order models, measurement data and machine learning techniques for multiphysical equipment system

Номер патента: EP4270126A1. Автор: Woo Joo Han. Владелец: Pace Inc. Дата публикации: 2023-11-01.

Power distribution network reliability index calculation method and apparatus based on mixed integer linear programming, and medium

Номер патента: US12015271B2. Автор: Bin Wang,Qinglai Guo,Hongbin Sun,Zihao Li,Boming Zhang,Wenchuan Wu. Владелец: TSINGHUA UNIVERSITY. Дата публикации: 2024-06-18.

Factory power management and control system and method based on edge-cloud coordination

Номер патента: US11822417B2. Автор: Xu Yang,MIN Wei,PING Wang,Caiqin LI. Владелец: Chongqing University of Post and Telecommunications. Дата публикации: 2023-11-21.

Factory power management and control system and method based on edge-cloud coordination

Номер патента: US20220187894A1. Автор: Xu Yang,MIN Wei,PING Wang,Caiqin LI. Владелец: Chongqing University of Post and Telecommunications. Дата публикации: 2022-06-16.

Digital twin interface for operating wind farms

Номер патента: US09995278B2. Автор: Arnold M. Lund,Peter Gregg,Jeng-Weei Lin,Jayanthi Srinivasan,Sham Chotai,Raimundo Onetto,Anwar Ahmed,Karl Mochel,Jeffrey Eric Bergman,Kenneth D. Hartling, JR.. Владелец: General Electric Co. Дата публикации: 2018-06-12.

Engineering based digital twin platform

Номер патента: WO2021118478A2. Автор: Büryan TURAN,Erhan Turan. Владелец: Si̇mularge Bi̇li̇şi̇m Ve Mühendi̇sli̇k Teknoloji̇leri̇ Anoni̇m Şi̇rketi̇. Дата публикации: 2021-06-17.

Engineering based digital twin platform

Номер патента: WO2021118478A3. Автор: Büryan TURAN,Erhan Turan. Владелец: Si̇mularge Bi̇li̇şi̇m Ve Mühendi̇sli̇k Teknoloji̇leri̇ Anoni̇m Şi̇rketi̇. Дата публикации: 2021-07-15.

A device and method to improve the efficiency of construction sites using iot enabled digital twins

Номер патента: AU2021102807A4. Автор: Kundan MESHRAM. Владелец: Individual. Дата публикации: 2021-07-15.

Early warning system and method based on intelligent sensing and identification using a multivariate disaster-breeding digital twin

Номер патента: LU500669B1. Автор: Wen He,Yue Li,Xing Wang,Yuxin Zhou,Xiaogang Wu,Bibo Dai,Wen Nie,Hanhua XU,Yunmin Wang. Владелец: Sinosteel Maanshan General Institute Of Mining Res Co Ltd. Дата публикации: 2022-03-21.

IoT Contextually-aware Digital Twin with Enhanced Discovery

Номер патента: US20210006621A1. Автор: Robert Knight,Nikunj Patel,Rick Szcodronski. Владелец: CohesionIB. Дата публикации: 2021-01-07.

Intelligent Stage Control System Based on Digital Information Network

Номер патента: LU500828B1. Автор: Bo An. Владелец: Hebei Chemical & Pharmaceutical College. Дата публикации: 2022-05-05.

Systems and methods using dual vehicle digital twins for model-based learning and remotely-operated vehicles

Номер патента: US20230343145A1. Автор: James Wilhelm Heaton,Praveen Kumar Yalavarty,Navid Tafaghodi Khajavi,Sajit Janardhanan,Laleh Ghalami. Владелец: FORD GLOBAL TECHNOLOGIES LLC. Дата публикации: 2023-10-26.

Method for generating data indicative of a digital twin

Номер патента: US20240193457A1. Автор: Roman Orus,Rodrigo Hernandez. Владелец: Multiverse Computing SL. Дата публикации: 2024-06-13.

Method for generating data indicative of a digital twin

Номер патента: EP4383149A1. Автор: Roman Orus,Rodrigo Hernandez. Владелец: Multiverse Computing SL. Дата публикации: 2024-06-12.

IoT contextually-aware digital twin with enhanced discovery

Номер патента: US11882187B1. Автор: Robert Knight,Nikunj Patel,Rick Szcodronski. Владелец: Cohesionib Inc. Дата публикации: 2024-01-23.

IoT Contextually-aware Digital Twin with Enhanced Discovery

Номер патента: US20210006622A1. Автор: Robert Knight,Nikunj Patel,Rick Szcodronski. Владелец: CohesionIB. Дата публикации: 2021-01-07.

Building data platform with policy learning for digital twins

Номер патента: US20230195066A1. Автор: Rajiv Ramanasankaran,Michael James Risbeck. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-06-22.

Extrapolating motor energy consumption based on digital twin

Номер патента: US20230152768A1. Автор: Olli Alkkiomäki,Teemu Tanila,Joni Siimesjärvi. Владелец: ABB Schweiz AG. Дата публикации: 2023-05-18.

Automatic driving system of monorail hoist driven based on digital twin and method thereof

Номер патента: US20240166476A1. Автор: KANG Xu,HAO LU,Yu Tang,Zhencai Zhu,Fuping ZHENG,Yidong Zhang,Hengzhen HU,Yuzhu ZHANG. Владелец: Xuzhou Liren Monorail Transportation Equipment Co ltd. Дата публикации: 2024-05-23.

Fault diagnosis device for three-phase asynchronous motor based on digital twinning and transfer learning

Номер патента: LU500017B1. Автор: TAO Han,Jun Hang,Xiaojie ZHOU,Shanyong Xu,Yourui Huang,Shichuan Ding. Владелец: Univ Anhui. Дата публикации: 2022-08-09.

Extrapolating motor energy consumption based on digital twin

Номер патента: EP4180890A1. Автор: Olli Alkkiomäki,Teemu Tanila,Joni Siimesjärvi. Владелец: ABB Schweiz AG. Дата публикации: 2023-05-17.

Process optimization using integrated digital twins

Номер патента: US20240319687A1. Автор: Ashwin Ramachandran,Dnyaneshwar Laxmanrao Ambhore,Saumya SHEKHAR,Suraj G Jadhav,Ankur Dayal,Hemant Kumar Bansal,Ritdhwara Jain,Vineet Dubey. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-09-26.

Digital twin system for a cooling system

Номер патента: US09881430B1. Автор: Tapan Shah,Babu Narayanan,Suresh Govindappa,Paul Nistler. Владелец: General Electric Co. Дата публикации: 2018-01-30.

Field installation control system and method based on hybrid digital twin model for process operation optimization

Номер патента: US20230297040A1. Автор: Sang Jin Yun,Joo Hwan Noh. Владелец: Sdplex Co Ltd. Дата публикации: 2023-09-21.

Building data platform with schema extensibility for properties and tags of a digital twin

Номер патента: US12055907B2. Автор: Dominick James O'Dierno,Brian Scott Otto,Trent Mark Swanson. Владелец: Tyco Fire and Security GmbH. Дата публикации: 2024-08-06.

Real-time calibration for detailed digital twins

Номер патента: WO2024141260A1. Автор: Heng CHI,Jose VALENZUELA DEL RIO. Владелец: SIEMENS SCHWEIZ AG. Дата публикации: 2024-07-04.

Building digital twin system for building health

Номер патента: US20240295336A1. Автор: Nicole A. Madison,Shawn D. Schubert,Ravindra Ramanand Warake,Vineet Binodshanker Sinha,Joseph S. Stangarone,Kerry M. Caravello. Владелец: Tyco Fire and Security GmbH. Дата публикации: 2024-09-05.

Real-time calibration for detailed digital twins

Номер патента: US20240210933A1. Автор: Heng CHI,Jose VALENZUELA DEL RIO. Владелец: SIEMENS SCHWEIZ AG. Дата публикации: 2024-06-27.

Generation of digital twins of physical environments

Номер патента: WO2020190389A1. Автор: Matthew Evan VOGEL,William Douglas GUYMAN,Michelle Lynn BROOK,Selvi S. Chennai. Владелец: Microsoft Technology Licensing, LLC. Дата публикации: 2020-09-24.

Building data platform with digital twin enrichment

Номер патента: US20240283675A1. Автор: Young M. Lee,David Margolin,Rajiv Ramanasankaran,Jason PELSKI,Dominick O'Dierno,Fintan Ronan,Brian Otto,Todd Leister. Владелец: Tyco Fire and Security GmbH. Дата публикации: 2024-08-22.

Digital twin to represent operating states of a vehicle

Номер патента: US20240257583A1. Автор: Charles Howard CELLA. Владелец: Strong Force Tp Portfolio 2022 LLC. Дата публикации: 2024-08-01.

Digital twins (dt) for circuit board reliability prediction

Номер патента: EP4206842A1. Автор: Yehia F. Khalil. Владелец: ROCKWELL COLLINS INC. Дата публикации: 2023-07-05.

Digital twin-based system and method for operational control of a physical system

Номер патента: WO2024059214A1. Автор: Robert Horton. Владелец: Dallas/Fort Worth International Airport Board. Дата публикации: 2024-03-21.

Digital-twin-system for teleoperation of an object

Номер патента: EP4425290A1. Автор: Navid Nourani-Vatani,Sandip GANGAKHEDKAR,Sangyoung Park,Philipp Kremer. Владелец: Imperium Drive. Дата публикации: 2024-09-04.

Method and system for semi-supervised deep anomaly detection for large-scale industrial monitoring systems based on time-series data utilizing digital twin simulation data

Номер патента: US12093818B2. Автор: Andrea Castellani,Sebastian Schmitt,Stefano SQUARTINI. Владелец: HONDA RESEARCH INSTITUTE EUROPE GMBH. Дата публикации: 2024-09-17.

Digital-Twin-Enabled Robot Fleet Management

Номер патента: US20230339114A1. Автор: Charles H. Cella,Teymour S. EL-TAHRY,Leon Fortin, Jr.. Владелец: Strong Force VCN Portfolio 2019 LLC. Дата публикации: 2023-10-26.

Intelligent vibration digital twin systems and methods for industrial environments

Номер патента: US20220163960A1. Автор: Charles H. Cella,Gerald William Duffy, Jr.,Jeffrey P. MCGUCKIN,Andrew Cardno,Teymour S. EL-TAHRY,Jenna PARENTI. Владелец: Strong Force IoT Portfolio 2016 LLC. Дата публикации: 2022-05-26.

Intelligent vibration digital twin systems and methods for industrial environments

Номер патента: US20230098519A1. Автор: Charles H. Cella,Gerald William Duffy, Jr.,Jeffrey P. MCGUCKIN,Andrew Cardno,Teymour S. EL-TAHRY,Jenna PARENTI. Владелец: Strong Force IoT Portfolio 2016 LLC. Дата публикации: 2023-03-30.

Digital-Twin-Assisted Additive Manufacturing for Value Chain Networks

Номер патента: US20220197246A1. Автор: Charles H. Cella,Teymour S. EL-TAHRY,Brent BLIVEN,Kunal SHARMA. Владелец: Strong Force VCN Portfolio 2019 LLC. Дата публикации: 2022-06-23.

Field Device Digital Twins in Process Control and Automation Systems

Номер патента: US20240028014A1. Автор: Mark J. Nixon,Gary K. Law,Peter Hartmann,Claudio Fayad,Aaron C. Jones,Brian LaMothe,Mickey Nanda,Brian M. Capoccia,Narayanan Doraiswamy. Владелец: Fisher Rosemount Systems Inc. Дата публикации: 2024-01-25.

Building data platform with schema extensibility for properties and tags of a digital twin

Номер патента: US20230350362A1. Автор: Brian Scott Otto,Dominick James O’Dierno,Trent Mark Swanson. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-11-02.

Building data platform with schema extensibility for states of a digital twin

Номер патента: US20230400825A1. Автор: Dominick James O'Dierno,Brian Scott Otto,Trent Mark Swanson. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-12-14.

Building data platform with digital twin-based diagnostic routines

Номер патента: US20230358429A1. Автор: Young Lee,Ambuj Shatdal,Rajiv Ramanasankaran,Michael James Risbeck. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-11-09.

Building data platform with schema extensibility for properties and tags of a digital twin

Номер патента: US11796974B2. Автор: Dominick James O'Dierno,Brian Scott Otto,Trent Mark Swanson. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-10-24.

Method and system for improving quality and accuracy of data of plurality of digital twins interacting in a computer simulated collaborative environment over a distributed network

Номер патента: WO2024042153A1. Автор: Saurabh Narayan Singh,Arun Raj. Владелец: SIEMENS AKTIENGESELLSCHAFT. Дата публикации: 2024-02-29.

Field device digital twins in process control and automation systems

Номер патента: WO2024019996A1. Автор: Mark J. Nixon,Gary K. Law,Peter Hartmann,Claudio Fayad,Aaron C. Jones,Brian LaMothe,Mickey Nanda,Brian M. Capoccia,Narayanan Doraiswamy. Владелец: FISHER-ROSEMOUNT SYSTEMS, INC.. Дата публикации: 2024-01-25.

Automated model based guided digital twin synchronization

Номер патента: WO2024043874A1. Автор: Aditi Roy,Spondon KUNDU. Владелец: Siemens Corporation. Дата публикации: 2024-02-29.

AI-Based Energy Edge Platform, Systems, and Methods Having a Digital Twin of Decentralized Infrastructure

Номер патента: US20240103594A1. Автор: Charles H. Cella,Andrew Cardno. Владелец: Strong Force Ee Portfolio 2022 LLC. Дата публикации: 2024-03-28.

Method and system for improving quality and accuracy of data of plurality of digital twins interacting in a computer simulated collaborative environment over a distributed network

Номер патента: EP4328781A1. Автор: Saurabh Narayan Singh,Arun Raj. Владелец: SIEMENS AG. Дата публикации: 2024-02-28.

Digital twin simulation system and a cognitive intelligence system for vehicle fleet management and evaluation

Номер патента: US20240127639A1. Автор: Charles Howard CELLA. Владелец: Strong Force Tp Portfolio 2022 LLC. Дата публикации: 2024-04-18.

Dynamic Digital Twin of Distributed Energy Demand

Номер патента: US20230244199A1. Автор: Charles H. Cella,Andrew Cardno. Владелец: Strong Force Ee Portfolio 2022 LLC. Дата публикации: 2023-08-03.

Digital twin for a fuel system

Номер патента: WO2024059279A1. Автор: Pradheepram Ottikkutti,David Michael CAREY,Shailesh Nair,Mayur H. BORATE,Srinivas Kumar MULUKUTLA. Владелец: Cummins Inc.. Дата публикации: 2024-03-21.

Digital twin monitoring system of tethered balloon

Номер патента: US20220100927A1. Автор: Lei Guo,Xingyu Chen,Hongqi Zhang,Yixiong WEI,Yanlong Zhang,Hongqiao ZHOU,Fujun TIAN,Liangxi CHEN,Jinwen Zhou,Shanshan Zha. Владелец: CETC 38 Research Institute. Дата публикации: 2022-03-31.

Digital twin machine maintenance delays for task management

Номер патента: US20240077867A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Atul Mene. Владелец: International Business Machines Corp. Дата публикации: 2024-03-07.

Digital twins (DT) for circuit board reliability prediction

Номер патента: US11874320B2. Автор: Yehia F. Khalil. Владелец: ROCKWELL COLLINS INC. Дата публикации: 2024-01-16.

Digital twin and a method for a heavy-duty vehicle

Номер патента: US20230306156A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-09-28.

Generator system architecture

Номер патента: US20200218216A1. Автор: Isaac S. Frampton,Douglas W. Dorn,Steve Jungers,Allen FREDERICK. Владелец: Kohler Co. Дата публикации: 2020-07-09.

Automatic adaption of business process ontology using digital twins

Номер патента: WO2024056269A1. Автор: Sarbajit Rakshit,Tushar Agrawal,Atul Mene,Jeremy Fox. Владелец: Ibm United Kingdom Limited. Дата публикации: 2024-03-21.

Dc-dc converter control method based on td3 reinforcement learning algorithm

Номер патента: ZA202303806B. Автор: Jian Ye,huanyu Guo. Владелец: Harbin Inst Technology Shenzhen. Дата публикации: 2024-04-24.

Digital twin of centrifugal pump in pumping systems

Номер патента: WO2019125746A1. Автор: Edward A. Fowler. Владелец: SIEMENS AKTIENGESELLSCHAFT. Дата публикации: 2019-06-27.

Automatic adaption of business process ontology using digital twins

Номер патента: US20240085892A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Atul Mene. Владелец: International Business Machines Corp. Дата публикации: 2024-03-14.

A digital twin for monitoring and controlling an industrial bioprocess

Номер патента: EP3839036A1. Автор: Liang Wu,Hendrik Jan Noorman,Cornelis HARINGA. Владелец: DSM IP ASSETS BV. Дата публикации: 2021-06-23.

Systems and methods for digital twin for condition based maintenance

Номер патента: US20240087373A1. Автор: Steven Ackerman,Mitchell O'brien. Владелец: Honeywell International Inc. Дата публикации: 2024-03-14.

Progressive guidance of digital twin model assembly

Номер патента: US20210149380A1. Автор: Sarbajit K. Rakshit. Владелец: International Business Machines Corp. Дата публикации: 2021-05-20.

Digital twin-based system and method for operational control of a physical system

Номер патента: US20240094687A1. Автор: Robert Horton. Владелец: Dallas Fort Worth International Airport Board. Дата публикации: 2024-03-21.

Human-computer interaction system and method based on wireless charging device

Номер патента: US20230297050A1. Автор: Xin Xie,Jiuwu Zhang,Xiulong Liu,Keqiu Li,Yuesen Liu. Владелец: TIANJIN UNIVERSITY. Дата публикации: 2023-09-21.

Control method based on disturbance perception

Номер патента: US20200133207A1. Автор: Zhezhao ZENG. Владелец: Individual. Дата публикации: 2020-04-30.

Digital twin modeling method and system for assembling a robotic teleoperation environment

Номер патента: US20230230312A1. Автор: Yang Guo,Jianhua Zhang,Qinghai Zhang,Tianliang HU,Chengjun Chen,Dongnian Li,Zhengxu Zhao,Yuanlin Guan. Владелец: QINGDAO UNIVERSITY OF TECHNOLOGY. Дата публикации: 2023-07-20.

Automatic estimation of physics parameters in a digital twin simulation

Номер патента: WO2022046063A1. Автор: Heiko Claussen,Martin Sehr,Eugen Solowjow,Shashank Tamaskar,Juan L. Aparicio Ojea,Chengtao Wen,Xiaowen Yu,Wei Xi XIA,Ines UGALDE DIAZ. Владелец: Siemens Corporation. Дата публикации: 2022-03-03.

Method and system for knowledge-based engineering of digital twin for plant monitoring and optimization

Номер патента: US20240310793A1. Автор: Venkataramana Runkana,Sivakumar Subramanian,Sri Harsha Nistala,Anirudh Makarand Deodhar,Sreedhar Reddy,Sandipan MAITI,Sushant Shrinivas VALE,Subhrojyoti CHAUDHURI. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2024-09-19.

Automatic estimation of physics parameters in a digital twin simulation

Номер патента: US20230316115A1. Автор: Heiko Claussen,Martin Sehr,Eugen Solowjow,Shashank Tamaskar,Juan L. Aparicio Ojea,Chengtao Wen,Xiaowen Yu,Wei Xi XIA,Ines UGALDE DIAZ. Владелец: SIEMENS AG. Дата публикации: 2023-10-05.

Automatic estimation of physics parameters in a digital twin simulation

Номер патента: EP4189498A1. Автор: Heiko Claussen,Martin Sehr,Eugen Solowjow,Shashank Tamaskar,Juan L. Aparicio Ojea,Chengtao Wen,Xiaowen Yu,Wei Xi XIA,Ines UGALDE DIAZ. Владелец: SIEMENS AG. Дата публикации: 2023-06-07.

Method and system for knowledge-based engineering of digital twin for plant monitoring and optimization

Номер патента: EP4432025A1. Автор: Venkataramana Runkana,Sivakumar Subramanian,Sri Harsha Nistala,Anirudh Makarand Deodhar,Sreedhar Reddy,Sandipan MAITI,Subhrojyoti Roy Chaudhuri,Sushant Shrinivas VALE. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2024-09-18.

Method based on mechatronic system diagnostic models

Номер патента: RU2394276C2. Автор: Вальтер ЛЕЛЕ,Йохен АССФАЛЬГ,Мартин ФРИТЦ,Франк АЛЛЬГЁВЕР,Вальтер ЛЕЛЕ (DE),Йохен АССФАЛЬГ (DE),Мартин ФРИТЦ (DE),Франк АЛЛЬГЁВЕР (DE). Владелец: Роберт Бош Гмбх. Дата публикации: 2010-07-10.

Systems and methods for digital twinning of a hydrocarbon system

Номер патента: WO2022125526A1. Автор: Albert Hoefel,Nam Nguyen,Jonathan Chong,Yves-Marie Subervie,Rongzhen JIN,Shivam Agrawal. Владелец: Sensia LLC. Дата публикации: 2022-06-16.

Systems and methods for digital twinning of a hydrocarbon system

Номер патента: EP4256407A1. Автор: Albert Hoefel,Nam Nguyen,Jonathan Chong,Yves-Marie Subervie,Rongzhen JIN,Shivam Agrawal. Владелец: Sensia LLC. Дата публикации: 2023-10-11.

Remaining useful life predictions using digital-twin simulation model

Номер патента: US20220398360A1. Автор: Tsai-Ching Lu,Nigel D. STEPP,Alexander N. Waagen. Владелец: Boeing Co. Дата публикации: 2022-12-15.

Building data platform with digital twin functionality indicators

Номер патента: US20230359189A1. Автор: Young Lee,Ambuj Shatdal,Rajiv Ramanasankaran,Michael James Risbeck. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-11-09.

Digital twin for an autonomous vehicle

Номер патента: GB2610809A. Автор: Rider Conrad,Hamilton Kelvin. Владелец: Flare Bright Ltd. Дата публикации: 2023-03-22.

AI-Based Energy Edge Platform, Systems, and Methods Having a Digital Twin of a Mining Environment

Номер патента: US20230246922A1. Автор: Charles H. Cella,Andrew Cardno. Владелец: Strong Force Ee Portfolio 2022 LLC. Дата публикации: 2023-08-03.

A digital twin and a method for a heavy-duty vehicle

Номер патента: EP4250168A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-09-27.

Systems, methods, kits, and apparatuses for ai- driven digital twins for value chain network control towers

Номер патента: US20240144103A1. Автор: David Stein,Charles H. Cella,Andrew Cardno,Teymour S. EL-TAHRY,Jenna PARENTI,Brad Kell,Taylor CHARON,Kunal SHARMA,Benjamin D. Goodman,Hristo Malchev,Leon Fortin, Jr.,Andrew S. Locke,Andrew BUNIN,Eric P. VETTER. Владелец: Strong Force VCN Portfolio 2019 LLC. Дата публикации: 2024-05-02.

Aero-engine fault diagnosis method based on 5g edge computing and deep learning

Номер патента: US20240185040A1. Автор: Jie Yang,Jinglin WANG,Anping Wan,Jiantao YUAN,Tianmin SHAN. Владелец: Zhejiang University City College ZUCC. Дата публикации: 2024-06-06.

Systems and methods for digital twin-based equipment control

Номер патента: US20240210060A1. Автор: Youngchoon Park,Sudhi R. Sinha,Kelsey Carle Schuster,Vaidhyanathan Venkiteswaran. Владелец: Johnson Controls Technology Co. Дата публикации: 2024-06-27.

Cooker hood and video surveillance method based on cooker hood

Номер патента: EP3593050A1. Автор: Lei Yang,Dongyu Chu,Peter Schlotmann,Hongcai He,Kuang SHEN,Kai2 XU. Владелец: BSH HAUSGERAETE GMBH. Дата публикации: 2020-01-15.

Digital twin-based system and method for reducing peak power and energy consumption in a physical system

Номер патента: US20240096226A1. Автор: Robert Horton. Владелец: Dallas Fort Worth International Airport Board. Дата публикации: 2024-03-21.

Remote wellsite surface control system and method based on cloud service

Номер патента: GB2593019A. Автор: Liu Yu,DI Qingyun,Wang Xiaotian,FU Changmin. Владелец: Institute of Geology and Geophysics of CAS. Дата публикации: 2021-09-15.

Building data platform with digital twin based historical scenario generation

Номер патента: US20230168640A1. Автор: Young Lee,Chenlu ZHANG,Ambuj Shatdal,Rajiv Ramanasankaran. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-06-01.

Flight simulation method based on multi-sensor data fusion, device, and apparatus

Номер патента: US20200013307A1. Автор: Chaobin Chen,Zhaoliang PENG. Владелец: SZ DJI Technology Co Ltd. Дата публикации: 2020-01-09.

Graphic design method and device based on artificial intelligence

Номер патента: LU505686B1. Автор: Tianlin Chen. Владелец: Univ Hebei. Дата публикации: 2024-06-04.

Perforation cluster design method and system based on a hybrid model to predict proppant distribution

Номер патента: US11994019B2. Автор: Jack J. Kolle,Alan C. Mueller. Владелец: Geodynamics Inc. Дата публикации: 2024-05-28.

Interactive clothing design method and device based on style module and perceptual requirement

Номер патента: CN113190884A. Автор: 陈晓华,赵升良. Владелец: Hangzhou Zhuowei Machinery Co ltd. Дата публикации: 2021-07-30.

Garment design method and device based on 3D effect, computer equipment and medium

Номер патента: CN114580201A. Автор: 贺宪亭. Владелец: Shenzhen Boketime Science&technology Co ltd. Дата публикации: 2022-06-03.

Optimizing energy consumption of production lines using intelligent digital twins

Номер патента: US11880250B2. Автор: Eitan Hadar,Gal Engelberg,Laura Mosconi,Stefano Giacco. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-01-23.

Optimizing energy consumption of production lines using intelligent digital twins

Номер патента: US20230021961A1. Автор: Eitan Hadar,Gal Engelberg,Laura Mosconi,Stefano Giacco. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-01-26.

Binary free-form air inlet channel optimization design method and system based on class shape function

Номер патента: CN113221483B. Автор: 陈兵,龚春林,苟建军,黄文钰,王健磊,吴蔚楠,李天纲. Владелец: Northwestern Polytechnical University. Дата публикации: 2023-04-18.

Optimized shield underpass tunnel design method and equipment based on Catboost-NSGA-III

Номер патента: CN114969953B. Автор: 王健,黄浩,徐文,徐文胜,陈虹宇,曹源,吴贤国,阮滨,冯宗宝,覃亚伟,王廷辉,吴克宝,鄢春艳,裴以军,曹化锦. Владелец: HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY. Дата публикации: 2023-02-03.

Automatic driving system of monorail hoist driven based on digital twin and method thereof

Номер патента: CA3193993C. Автор: KANG Xu,HAO LU,Yu Tang,Zhencai Zhu,Fuping ZHENG,Yidong Zhang,Hengzhen HU,Yuzhu ZHANG. Владелец: Xuzhou Liren Monorail Transportation Equipment Co ltd. Дата публикации: 2023-08-01.

Automatic driving system of monorail hoist driven based on digital twin and method thereof

Номер патента: CA3193993A1. Автор: KANG Xu,HAO LU,Yu Tang,Zhencai Zhu,Fuping ZHENG,Yidong Zhang,Hengzhen HU,Yuzhu ZHANG. Владелец: Xuzhou Liren Monorail Transportation Equipment Co ltd. Дата публикации: 2023-03-02.

Automatic driving system of monorail hoist driven based on digital twin and method thereof

Номер патента: US20230348238A1. Автор: KANG Xu,HAO LU,Yu Tang,Zhencai Zhu,Fuping ZHENG,Yidong Zhang,Hengzhen HU,Yuzhu ZHANG. Владелец: Xuzhou Liren Monorail Transportation Equipment Co ltd. Дата публикации: 2023-11-02.

Three-layer intelligence system architecture and an exploration robot

Номер патента: US12079005B2. Автор: LIANG Ding,YE Yuan,Shu Li,Zhen Liu,Yan Liu,Haibo Gao,Zongquan Deng. Владелец: Harbin Institute of Technology. Дата публикации: 2024-09-03.

Method for feasibility evaluation of UAV digital twin based on vicon motion capture system

Номер патента: US11847920B2. Автор: YANG Shen,Gang Li,PING Lu,Bin He,Zhipeng Wang,Yanmin ZHOU,Zhongpan ZHU. Владелец: TONGJI UNIVERSITY. Дата публикации: 2023-12-19.

A kind of artificial intelligence packaging design method and system based on Internet of Things big data

Номер патента: CN109543359A. Автор: 崔娜,李燕清. Владелец: Individual. Дата публикации: 2019-03-29.

Unmanned aerial vehicle (uav) task cooperation method based on overlapping coalition formation (ocf) game

Номер патента: US20230074192A1. Автор: Wei Wang,NAN QI,Yijia Liu,Kewei Wang,Luliang JIA,Diliao YE,Zanqi Huang,Yueyue Su. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2023-03-09.

Air combat maneuvering method based on parallel self-play

Номер патента: US11794898B2. Автор: Bo Li,Zhipeng Yang,Xiaoguang Gao,Kaifang WAN,Zhigang GAN,Shiyang LIANG,Kaiqiang YUE. Владелец: Northwestern Polytechnical University. Дата публикации: 2023-10-24.

Positioning system and positioning method based on WI-FI fingerprints

Номер патента: US11762396B2. Автор: Chung-Yuan Chen,Ruey-Beei Wu,Alexander I Chi Lai. Владелец: PSJ International Ltd. Дата публикации: 2023-09-19.

Digital twin cooperation method, digital twin cooperation system, and digital twin cooperation program

Номер патента: US20240012959A1. Автор: atsushi Tomobe,Ryoji Furuhashi. Владелец: HITACHI LTD. Дата публикации: 2024-01-11.

Decision-making method and system for suspension operation of marine riser system based on digital twin

Номер патента: US20230351071A1. Автор: Guoming Chen,Yanwei LI,Zhaowei Liu,Xiuquan LIU,Xianglei Wang,Yuanjiang Chang,Na Qiu,Pengji HU. Владелец: China University of Petroleum CUP. Дата публикации: 2023-11-02.

Model-Based System Architecture Design Method for Unmanned Aerial Vehicle (UAV) Systems

Номер патента: US20230021467A1. Автор: Jun Ge,Yuanjie Lu,Xinghai Gao,Chuangye Chang,Zeshi Liu,Zhuoqi Wang,Lingfei You. Владелец: BEIHANG UNIVERSITY. Дата публикации: 2023-01-26.

Combustion System Design Method Based on Target Heat Release Rate

Номер патента: US20230184190A1. Автор: Yan Peng,Li Huang,Wenzheng Zhang,Long Liu,Changfu HAN,Haicheng QI. Владелец: Harbin Engineering University. Дата публикации: 2023-06-15.

Method for prediction of dynamic rescheduling with digital twin workshop for circuit breaker and system using the same

Номер патента: US20210334428A1. Автор: MIAO Yang,Shasha Li,Liang Shu,Dingfang Chen,Yanfang Yang,Guichu Wu,Zhenquan Lin,Xiangou Zhu. Владелец: Technology Institute Of Wenzhou University Yueqing. Дата публикации: 2021-10-28.

Image descattering method based on iterative optimization of atmospheric transmission matrix

Номер патента: US12094093B2. Автор: XIN Jin,Yihui Fan. Владелец: Shenzhen International Graduate School of Tsinghua University. Дата публикации: 2024-09-17.

System and methodology for development of a system architecture

Номер патента: US20120159119A1. Автор: Anirban Sengupta,Reza Sedaghat. Владелец: Individual. Дата публикации: 2012-06-21.

General blockchain performance evaluation method based on dynamic proxy and smart contract

Номер патента: US20240220404A1. Автор: Chenyu Zhang,Liyuan Ma,Yuhan Li,Xiulong Liu,Keqiu Li. Владелец: TIANJIN UNIVERSITY. Дата публикации: 2024-07-04.

General multi-disease prediction system based on causal check data generation

Номер патента: US20240212862A1. Автор: Feng Wang,Yu Tian,Hang Zhang,Jingsong Li,Tianshu ZHOU,Shengqiang Chi. Владелец: Zhejiang Lab. Дата публикации: 2024-06-27.

Modular internet of things diagnostic system based on power quality analysis

Номер патента: EP4395122A1. Автор: Karol Listewnik. Владелец: Uniwersytet Morski W Gdyni. Дата публикации: 2024-07-03.

Personalized comment recommendation method based on link prediction model of graph bidirectional aggregation network

Номер патента: US20230185865A1. Автор: Zhao Li,Yinglong WANG,Muchen WANG,Minglei Shu,Tianlei GAO. Владелец: Shandong Institute of Artificial Intelligence. Дата публикации: 2023-06-15.

Online multi-object tracking method based on confidence optimization

Номер патента: ZA202308553B. Автор: Li Yi,LI Hongwei,WANG Qijie,SHU Da,Liu Youyu. Владелец: Univ Anhui Polytechnic. Дата публикации: 2024-05-30.

Vehicle-road cooperation precise positioning method based on electrified highway

Номер патента: US20240255286A1. Автор: Chen Li,XIAO Li,CHEN Cao,Wei Zhou,Jie Jin,Qi Zhan,Yujiang Song,Zhichao Liu,Wenliang LI,Xuewen Zhang,Jin Gao,Liwei Zhu,Huajian Li. Владелец: Research Institute of Highway Ministry of Transport. Дата публикации: 2024-08-01.

Fast medical hyperspectral image (mhsi) classification method based on similarity tangent mapping

Номер патента: US20240233919A1. Автор: Chenglong Zhang,Xiaoli Yang,Xiaopeng Ma,Dexin Yu,Qiyuan CHENG. Владелец: Shandong University. Дата публикации: 2024-07-11.

Energy-efficient sample selection method based on complexity

Номер патента: US20230419171A1. Автор: LEI Liu,Qiushi WANG,Hangyu Hu,Yunji Liang,Zhiying Zhao. Владелец: Northwestern Polytechnical University. Дата публикации: 2023-12-28.

General blockchain performance evaluation method based on dynamic proxy and smart contract

Номер патента: US12135640B2. Автор: Chenyu Zhang,Liyuan Ma,Yuhan Li,Xiulong Liu,Keqiu Li. Владелец: TIANJIN UNIVERSITY. Дата публикации: 2024-11-05.

Robot welding method and system based on semantic feature clustering

Номер патента: US20240367323A1. Автор: Jian Chen,Qian Gao,Yuguo Zhou,Yongling Wu,Jiheng Yu,Zhibo Yang,Yuxia YANG,Xia Lv,Yinghui DONG,Chengxing Lv,Xinli Xu,Huamin Zhao. Владелец: QINGDAO UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-11-07.

Design method for three-dimensional special-shaped jet nozzle used in field of water-saving irrigation in farmland

Номер патента: US20240220689A1. Автор: Yan Zhu,Ying Zhang,XiaoPing Jiang,Bin Xu,Jun Ni,Xingchen Wang,Jinzhao HU,Weixing CAO,Yongchao Tian,Yaoyao LIAO. Владелец: NANJING AGRICULTURAL UNIVERSITY. Дата публикации: 2024-07-04.

Gis partial discharge pattern recognition method based on polar coordinate distribution entropy optimization

Номер патента: LU504543B1. Автор: Ze Li,Yadong Liu,Weihao SUN,Gehao SHENG,Xiuchen Jiang,Yingjie YAN,Yaocheng Li,Yongpeng Xu,Yiming Zang. Владелец: Univ Shanghai Jiaotong. Дата публикации: 2023-12-20.

Remote sensing classification method based on relative entropy

Номер патента: US20240242477A1. Автор: Hao Zhao,Jianfeng Liu,Xiwang Zhang,Shiqi Yu,Mengwei Chen. Владелец: HENAN UNIVERSITY. Дата публикации: 2024-07-18.

Bad data detection algorithm for PMU based on spectral clustering

Номер патента: US11170304B1. Автор: HAO LIU,Ke Jia,Zhiwei Yang,Tianshu BI. Владелец: NORTH CHINA ELECTRIC POWER UNIVERSITY. Дата публикации: 2021-11-09.

AIRBORNE LiDAR POINT CLOUD FILTERING METHOD DEVICE BASED ON SUPER-VOXEL GROUND SALIENCY

Номер патента: US20240355045A1. Автор: Yongjun Zhang,Weiwei Fan,Xinyi Liu. Владелец: Wuhan University WHU. Дата публикации: 2024-10-24.

Urban underground space Resistivity Sensing System and Data Collection Method Based on Cloud-Edge-End Collaboration

Номер патента: US20240183891A1. Автор: Jiaxin Wang,Bangbing WANG. Владелец: Zhejiang University ZJU. Дата публикации: 2024-06-06.

A biological invasion identification method based on multi-source data fusion analysis

Номер патента: NL2034409A. Автор: CHEN Biyun. Владелец: Univ Yancheng Teachers. Дата публикации: 2023-05-19.

A biological invasion identification method based on multi-source data fusion analysis

Номер патента: NL2034214A. Автор: CHEN Biyun. Владелец: Univ Yancheng Teachers. Дата публикации: 2023-05-19.

Measuring device and measuring method based on high-density electrical method

Номер патента: NL2030330A. Автор: Xu Ya,LIU Yuqiang,LIU Jingcai,YAO Guangyuan,NAI Changxin. Владелец: Chinese Res Acad Env Sciences. Дата публикации: 2023-05-23.

Measuring device and measuring method based on high-density electrical method

Номер патента: NL2030330B1. Автор: Xu Ya,LIU Yuqiang,LIU Jingcai,YAO Guangyuan,NAI Changxin. Владелец: Chinese Res Acad Env Sciences. Дата публикации: 2023-06-28.

Evaluation Model Construction and Prediction Method Based on Subtropical Forest Fire Intensity

Номер патента: NL2034139B1. Автор: Wu Zhiwei. Владелец: Univ Jiangxi Normal. Дата публикации: 2024-05-31.

Semi-federated learning method based on next-generation multiple access technology

Номер патента: US20240232719A1. Автор: Ping Zhang,Keyan Liu,Hui Tian,Shaoshuai FAN,Gaofeng Nie,Wanli NI. Владелец: BEIJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. Дата публикации: 2024-07-11.

Intelligent self evolving automated teller machine (ATM) digital twin apparatus for enhancing real time ATM performance

Номер патента: US11769379B1. Автор: Shailendra Singh. Владелец: Bank of America Corp. Дата публикации: 2023-09-26.

Intelligent Self Evolving Automated Teller Machine (ATM) Digital Twin Apparatus for Enhancing Real Time ATM Performance

Номер патента: US20230316876A1. Автор: Shailendra Singh. Владелец: Bank of America Corp. Дата публикации: 2023-10-05.

Transformer substation operation ticket execution method based on point cloud digital twinning technology

Номер патента: CN112432641A. Автор: 王锐,苏劲,张松鹏,尚云. Владелец: Beijing Yida Enneng Technology Co ltd. Дата публикации: 2021-03-02.

Digital twin of an automated non-destructive ultrasonic testing system

Номер патента: EP3891499A1. Автор: Weiwei Zhang,Frank Kahmann. Владелец: GE Inspection Technologies LP. Дата публикации: 2021-10-13.

Terminal sensing system for constructing digital twin of three-phase asynchronous motor

Номер патента: LU500012B1. Автор: TAO Han,Jun Hang,Xiaojie ZHOU,Shanyong Xu,Yourui Huang,Shichuan Ding. Владелец: Univ Anhui. Дата публикации: 2022-08-09.

Digital twin simulation of vehicle object loading

Номер патента: US20240046003A1. Автор: Sarbajit K. Rakshit,Akash U. Dhoot,Shailendra Moyal. Владелец: International Business Machines Corp. Дата публикации: 2024-02-08.

Single chip integrated circuit system architecture for document installation set computing

Номер патента: US5600844A. Автор: Venson M. Shaw,Steven M. Shaw. Владелец: Individual. Дата публикации: 1997-02-04.

Computer-aided design method and apparatus based on digital circuit logic network

Номер патента: JP3857961B2. Автор: ジャインジャワハール,ムクヘルジーラジャーシ. Владелец: Fujitsu Ltd. Дата публикации: 2006-12-13.

POST-DESIGNING METHOD AND APPARATUS BASED ON VARIANT CONFIGURATION IN DEVELOPMENT OF GRAPHIC USER INTERFACE

Номер патента: US20150220236A1. Автор: LEE Jihyun. Владелец: Electronics and Telecommunications Research Institute. Дата публикации: 2015-08-06.

PROSTHESIS DESIGN METHOD AND SYSTEM BASED ON ARCH LINE

Номер патента: US20200383759A1. Автор: KIM Ji Min,JE Jin Ah,CHOI Geon,LEE Yu Bin,YOU Dong Hyun. Владелец: . Дата публикации: 2020-12-10.

Screen design method and device based on the matched OLED of light path

Номер патента: CN110021240A. Автор: 杨鑫,袁石林,曹良才,李儒佳,吴佳琛. Владелец: GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP LTD. Дата публикации: 2019-07-16.

Electric automobile energy consumption model design method and system based on green wave band

Номер патента: CN107862121B. Автор: 毛国强,欧阳毅刚. Владелец: 深圳市戴升智能科技有限公司. Дата публикации: 2022-04-22.

Prosthetic designs method and system based on camber line

Номер патента: CN110381879A. Автор: 崔健,金智敏,李有斌,诸珍雅,柳东铉. Владелец: DDS KK. Дата публикации: 2019-10-25.

A kind of indoor decoration design method and system based on VR

Номер патента: CN109389681A. Автор: 周平川. Владелец: Shizhu Tujia Autonomous County Baichuan Landscape Engineering Co Ltd. Дата публикации: 2019-02-26.

Second-generation STR/SNP primer design method and system based on maximum band edge weight group

Номер патента: CN115064208B. Автор: 李梦,胡欢,黄舒,陈初光,郑立. Владелец: Beijing Yuewei Gene Technology Co ltd. Дата публикации: 2023-01-03.

Corrugated steel plate lining reinforcement parameter optimization design method and structure based on tunnel lining defect detection

Номер патента: CN110909429A. Автор: 王伟,何卫,杨剑,郑强,吴建军,焦齐柱,莫阳春,陈创,姚捷,许建. Владелец: China Railway Siyuan Survey and Design Group Co Ltd. Дата публикации: 2020-03-24.

Dental restoration design method and device based on three-dimensional scanning device

Номер патента: CN108062792B. Автор: 杨涛,马力,徐文,黄亮,李晓晓,郭迪,李玉勤,香玫元. Владелец: Suzhou Dika Testing Technology Co ltd. Дата публикации: 2021-05-25.

Fan blade optimization design method and system based on Wilson model and genetic algorithm

Номер патента: CN114169088A. Автор: 吴昊,吕亮,唐云,祝金涛,朱俊杰,万芳,任鑫,童彤,曾谁飞,武青,曹朔. Владелец: Huaneng Huajialing Wind Power Co ltd. Дата публикации: 2022-03-11.

Prosthesis design method and system based on arch line

Номер патента: US11039905B2. Автор: Ji Min Kim,Dong Hyun You,Jin Ah Je,Geon CHOI,Yu Bin LEE. Владелец: Dds Co. Дата публикации: 2021-06-22.

Simulation design method and system based on LCD (liquid crystal display) segment screen, server and medium

Номер патента: CN112528354B. Автор: 李雄伟,王军德. Владелец: Wuhan Kotei Informatics Co Ltd. Дата публикации: 2022-05-10.

Engineering intelligent design method and system based on three-dimensional digital model

Номер патента: CN115495830A. Автор: 李航,朱焕春,包顺,霍莎莎,谢焕忠,岳云艳,郭福钟. Владелец: Jiahua Geoscience Wuhan Digital Technology Co ltd. Дата публикации: 2022-12-20.

Centrifugal compressor blade optimization design method and device based on multi-agent model

Номер патента: CN115270363A. Автор: 孙浩,李威,王津,贾志新,邱林宾,钱凌云,刘基盛. Владелец: University of Science and Technology Beijing USTB. Дата публикации: 2022-11-01.

Shoe body design method and device based on voice recognition

Номер патента: CN115544607A. Автор: 吴昊,林冠宇,林子森,谢子立,谢巧琳. Владелец: Guangdong Shidi Intelligent Technology Co Ltd. Дата публикации: 2022-12-30.

High-performance high-fault-tolerance storage design method and device based on channel bonding

Номер патента: CN103970690A. Автор: 王恩东,胡雷钧,林楷智,贡维,邹定国. Владелец: Inspur Electronic Information Industry Co Ltd . Дата публикации: 2014-08-06.

User mode file system design method and system based on nonvolatile memory

Номер патента: CN110659248B. Автор: 陈海波,董本超,董明凯,卜衡,易纪非. Владелец: Shanghai Jiaotong University. Дата публикации: 2022-11-11.

Child safety seat CMFP (China Mobile phone) design method and device based on attaching theory

Номер патента: CN112590972B. Автор: 郭昊,王雨,张彬彬,严波,张雅楠,满建洋. Владелец: CHANGZHOU CAMPUS OF HOHAI UNIVERSITY. Дата публикации: 2022-06-17.

Bent pipe variable wall thickness design method and device based on TRESCAC (TRESCA intensity theory)

Номер патента: CN110020492B. Автор: 张迪,李鹏,李彬,赵哲,刘国庆,王建新,王梦,王振峰,辛自立,常仁珂. Владелец: HENAN UNIVERSITY. Дата публикации: 2022-10-21.

Elevator shaft design method and system based on image recognition

Номер патента: CN109558675B. Автор: 张丽丽,李宇翔,李志彬,范奉和,刘振滨. Владелец: Guangdong Gse Elevator Co ltd. Дата публикации: 2023-04-07.

A kind of thinned array design method and device based on frequency domain broad-band EDFA

Номер патента: CN110174656A. Автор: 郑植,吴孟,付悦萍. Владелец: Guangdong Electronic Information Engineering Research Institute of UESTC. Дата публикации: 2019-08-27.

Blade blade section lineation device design method and device based on 3D printing

Номер патента: CN107825388B. Автор: 王荣,刘嵩,郭雪梅,牛阿妮,张玉宝,党红武,高锋利,陶彩玲. Владелец: AECC Aviation Power Co Ltd. Дата публикации: 2019-07-30.

Perforation cluster design method and system based on a hybrid model to predict proppant distribution

Номер патента: US20220112802A1. Автор: Jack J. Kolle,Alan C. Mueller. Владелец: Geodynamics Inc. Дата публикации: 2022-04-14.

Method and system for pre-emptive deviation detection for telecom process flow using digital twin

Номер патента: US11348048B2. Автор: Sankaranarayanan Viswanathan,Kaustav Bhattacharya,Senthilvelan NATARAJAN,Arunkumar SEKAR. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2022-05-31.

Method and system for pre-emptive deviation detection for telecom process flow using digital twin

Номер патента: WO2019162894A1. Автор: Sankaranarayanan Viswanathan,Kaustav Bhattacharya,Senthilvelan NATARAJAN,Arunkumar SEKAR. Владелец: TATA CONSULTANCY SERVICES LIMITED. Дата публикации: 2019-08-29.

Method and system for pre-emptive deviation detection for telecom process flow using digital twin

Номер патента: US20200380434A1. Автор: Sankaranarayanan Viswanathan,Kaustav Bhattacharya,Senthilvelan NATARAJAN,Arunkumar SEKAR. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2020-12-03.

Method and system for pre-emptive deviation detection for telecom process flow using digital twin

Номер патента: EP3756151A1. Автор: Sankaranarayanan Viswanathan,Kaustav Bhattacharya,Senthilvelan NATARAJAN,Arunkumar SEKAR. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2020-12-30.

Method and system for pre-emptive deviation detection for telecom process flow using digital twin

Номер патента: AU2019224842A1. Автор: Sankaranarayanan Viswanathan,Kaustav Bhattacharya,Senthilvelan NATARAJAN,Arunkumar SEKAR. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2020-10-01.

Electric energy and carbon emission measurement accounting method based on digital payment wallet and blockchain

Номер патента: US20230298023A1. Автор: Xizhong Zhou. Владелец: Individual. Дата публикации: 2023-09-21.

Hybrid battery control system architecture design systems and methods

Номер патента: US20170124226A1. Автор: Ronald J. Dulle,Mark D. Gunderson. Владелец: Johnson Controls Technology Co. Дата публикации: 2017-05-04.

Hybrid battery control system architecture design systems and methods

Номер патента: WO2017079019A1. Автор: Ronald J. Dulle,Mark D. Gunderson. Владелец: Johnson Controls Technology Company. Дата публикации: 2017-05-11.

Hybrid battery control system architecture design systems and methods

Номер патента: EP3370995A1. Автор: Ronald J. Dulle,Mark D. Gunderson. Владелец: Johnson Controls Technology Co. Дата публикации: 2018-09-12.

Digital twin–based evaluation method for power supply reliability of distribution network, device, and medium

Номер патента: AU2021367384A1. Автор: FAN YANG,SHI CHENG,Jun Liu,Wei Chai,Bingbing LU,Qichao MA,Lizhu PAN,Rujia QIU,Xinding REN,Zhiguo XIANG,Zi XIN. Владелец: Zhengzhou Dafang Software Co ltd. Дата публикации: 2023-03-16.

Federated information management (FIM) system and method for providing data site filtering and translation for heterogeneous databases

Номер патента: US5634053A. Автор: William B. Noble,Bhadra K. Patel,Jenny K. Wang. Владелец: Hughes Aircraft Co. Дата публикации: 1997-05-27.

Magnetic particle imaging (mpi) reconstruction method based on time-domain system matrix and x-space

Номер патента: US20240303879A1. Автор: Min Li,Xiaoli Yang,Xiaopeng Ma,Dexin Yu,Shihao SHAN. Владелец: Shandong University. Дата публикации: 2024-09-12.

Multi-source encrypted image retrieval method based on federated learning and secret sharing

Номер патента: NL2033745B1. Автор: ZHANG LEI. Владелец: Nanhu Laboratory. Дата публикации: 2024-01-30.

Multi-Source Encrypted Image Retrieval Method Based on Federated Learning and Secret Sharing

Номер патента: US20230216668A1. Автор: Lei Zhang. Владелец: Nanhu Laboratory. Дата публикации: 2023-07-06.

Hearing aid function realization method based on wearable device system and wearable device

Номер патента: US20230292062A1. Автор: Jian Sun,Gaofeng Li. Владелец: Shenzhen Tingduoduo Technology Co Ltd. Дата публикации: 2023-09-14.

Smart refrigerator based on big data analysis of server, health management method, and system

Номер патента: US20210207883A1. Автор: Bo Li,Laizhi WANG. Владелец: Shanghai Green Motive Technology Ltd. Дата публикации: 2021-07-08.

Overall Dispatching Device of Long-distance Heating System Based on Multiple Units, Overall Dispatching Method of Long-distance Heating System Based on Multiple Units, and System Adopting the Overall Dispatching Method of Long-distance Heating System Based on Multiple Units

Номер патента: LU504733B1. Автор: Gang Li,Nan Jiang,Ye Bai,Guanghui Wang,Zihan Wang,Guohui Sun,Jingbo MA,Renjing Cheng,Guopeng Yao,Haofei Cai,Baiming Sun,Wenxi Cui. Владелец: Huaneng Yimin Coal Power Co Ltd. Дата публикации: 2024-01-15.

Member-oriented hybrid cloud operating system architecture and communication method thereof

Номер патента: US9307017B2. Автор: Feng Guo,Fei Gao,Dong Zhang,Bo Zhu,Zhengwei Liu,Endong Wang,Kaiyuan QI,Junpeng LIU,Chenping LIU. Владелец: Inspur Electronic Information Industry Co Ltd . Дата публикации: 2016-04-05.

Control method and electronic device based on battery leakage state

Номер патента: US20180262027A1. Автор: Chul-woo Park,Ku-Chul Jung,Min-jung PARK,Jeong-Ho Lee,Chi-Hyun CHO,Sang-Hyun Ryu. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2018-09-13.

Contact tracing pre-screening method for infectious disease susceptible people based on wifi matching

Номер патента: US20240257985A1. Автор: Yu Liu,Peng Cheng,Chao Li,Jiming Chen,Shibo HE,Ruiwei YU,Mincheng WU. Владелец: Zhejiang University ZJU. Дата публикации: 2024-08-01.

Construction method of mine intelligent management and control platform based on geological survey guarantee system

Номер патента: US11704449B1. Автор: Xiang Li,Shanjun MAO,Chao JING. Владелец: BEIJING LONGRUAN TECHNOLOGIES Inc. Дата публикации: 2023-07-18.

Adaptive temperature control method based on log analysis of chassis manager in edge server

Номер патента: US20230156976A1. Автор: Young Hwan Kim,Jae Hoon An. Владелец: KOREA ELECTRONICS TECHNOLOGY INSTITUTE. Дата публикации: 2023-05-18.

Training method and device based on improved protograph neural decoder

Номер патента: US20240273343A1. Автор: Yi Fang,Yurong Wang,Liang LV,Pingping CHEN,Dingfei MA. Владелец: GUANGDONG UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-08-15.

Optical satellite remote sensing transfer calibration method based on near space aerostat

Номер патента: US20240265697A1. Автор: WAN LI,Lu Ren,Ning Wang,Qiang Liu,Caixia Gao,Lingling MA,Jingmei LI,Geer TENG,Yongguang ZHAO,Taihua ZHANG,Yanchu YANG,Yaokai LIU,Guangzhou OUYANG,Yifang NIU. Владелец: Aerospace Information Research Institute of CAS. Дата публикации: 2024-08-08.

Battery diagnosis method based on degree of resistance degradation and battery system applying the same

Номер патента: US20240264238A1. Автор: Sung Ju Hong. Владелец: LG Energy Solution Ltd. Дата публикации: 2024-08-08.

Ecological governance method based on erosion prevention and control for gentle slope farmland

Номер патента: US20240112283A1. Автор: Chen Xu,Hongjun Wang,Fei Li,Jinghua Wang,Ning Sun,Lihua Zhang,Yongjun WANG,Weiping YAN,Hongxiang Zhao,Baoyu Chen,Shaofeng Bian,Tiehua Cao,Xuanhe Liang,Guobo Tan,Xiangmeng Meng,Qingge Wang. Владелец: Jilin Academy of Agricultural Sciences. Дата публикации: 2024-04-04.

Training method and device based on improved protograph neural decoder

Номер патента: US12118452B2. Автор: Yi Fang,Yurong Wang,Liang LV,Pingping CHEN,Dingfei MA. Владелец: GUANGDONG UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-10-15.

Landslide hazard monitoring and early warning method and system based on real 3D

Номер патента: US12130401B1. Автор: Wei Liang,Wentao Yang,Jun Fang,Runlin Zhang,Yongshun Han,Baiyan Wu. Владелец: Hunan University of Science and Technology. Дата публикации: 2024-10-29.

Contact tracing pre-screening method for infectious disease susceptible people based on WiFi matching

Номер патента: US12087451B2. Автор: Yu Liu,Peng Cheng,Chao Li,Jiming Chen,Shibo HE,Ruiwei YU,Mincheng WU. Владелец: Zhejiang University ZJU. Дата публикации: 2024-09-10.

Battery control method based on ageing-adaptive operation window

Номер патента: US09859736B2. Автор: Shou-Hung Ling,Shih-Hao Liang. Владелец: Industrial Technology Research Institute ITRI. Дата публикации: 2018-01-02.

Communication and radar target detection method based on intelligent omni-surface

Номер патента: US20240333340A1. Автор: Qiang Wang,Jiakuo ZUO,Chenming ZHU,Fengqiang PENG. Владелец: China Information Consulting & Designing Institute Co Ltd. Дата публикации: 2024-10-03.

The measurement method of metro rail corrugation based on the seq2seq model and the fusion data of vibration and noise

Номер патента: US20240343277A1. Автор: Yan Xiao,Chang Xiao,Yang Wang,FENG Jin,HONG Xiao,Gang Wang,Guangming Shi,Jianjun Ma,Zhihai ZHANG,Liang Gao,Yawen ZHANG,Guangpeng Liu,Guangsheng Chen,Libin Ye,Shuwei FANG,Xiubo LIU,Yihao CHI,Shaolei WEI,Zhongxia QIAN,Yuze CAO. Владелец: Beijing Jiaotong University. Дата публикации: 2024-10-17.

Usb data communication method and device based on hybrid usb network

Номер патента: US20230409500A1. Автор: Chun Lee,Wei Nie. Владелец: Winstars Technology Ltd. Дата публикации: 2023-12-21.

Image forming apparatus that receives job data from host apparatuses via switching hub and calculates communication speed for the host apparatuses based on the job data and reception required time

Номер патента: US11016710B2. Автор: Shinji Tomofuji. Владелец: Kyocera Document Solutions Inc. Дата публикации: 2021-05-25.

Method for evaluating building roof photovoltaic power quality based on ahp and critic-entropy

Номер патента: US20240183916A1. Автор: Yang Yang,Feng Li,Xi Guo,Ying Zhang,Xuliang Jiang,Jie Yin,Chenhui NIU,Kenan CAO,Fan BIAN. Владелец: Huaneng Jiangsu Comprehensive Energy Service Co ltd. Дата публикации: 2024-06-06.

Fundus image quality evaluation method and device based on multi-source and multi-scale feature fusion

Номер патента: US11842490B2. Автор: Yunxiang Li,Xiaoyu Ma,Yaqi WANG,Zhiyuan Gao,Kai Jin,Juan YE. Владелец: Zhejiang University ZJU. Дата публикации: 2023-12-12.

Bridge damage diagnosis method based on fusion of vibration transfer big data and capsule network

Номер патента: GB2615402A. Автор: Shuai Li,Li Cui,Zeyu Wang,Yazhou JIANG,Maosen CAO,Huaxin Zhu,Dragoslav Sumera. Владелец: Jiangsu Zhongji Engineering And Tech Research Co Ltd. Дата публикации: 2023-08-09.

A cardiac transmembrane potential reconstruction method based on graph convolutional neural network and iterative threshold contraction algorithm

Номер патента: US20230263450A1. Автор: Huafeng LIU,Lide Mu. Владелец: Zhejiang University ZJU. Дата публикации: 2023-08-24.

A near-infrared spectroscopy tomography reconstruction method based on neural network

Номер патента: US20200196870A1. Автор: Zhe Li,Zhonghua Sun,Kebin Jia,Jinchao Feng,Qiuwan Sun. Владелец: BEIJING UNIVERSITY OF TECHNOLOGY. Дата публикации: 2020-06-25.

Digital twin model inversion for testing

Номер патента: EP3864383A2. Автор: Thomas Kohler,Leanne Jauriqui,Alexander MAYES,Julieanne HEFFERNAN,Richard LIVINGS,Eric Biedermann. Владелец: Vibrant Corp. Дата публикации: 2021-08-18.

Digital twin model inversion for testing

Номер патента: US20220187252A1. Автор: Thomas Kohler,Leanne Jauriqui,Alexander J. Mayes,Julieanne HEFFERNAN,Richard LIVINGS,Eric Biedermann. Владелец: Vibrant Corp. Дата публикации: 2022-06-16.

Passive combined indoor positioning system and method based on intelligent terminal sensor

Номер патента: US20230304802A1. Автор: QI Wu,Yanlong Liu,Ao LIU,Zengke LI,Xingyu Ding,Kefan SHAO,Shiyi JING. Владелец: China University of Mining and Technology CUMT. Дата публикации: 2023-09-28.

Positioning system and method based on low frequency magnetic field, and device

Номер патента: US20230179030A1. Автор: Hongcheng YOU,Zhixian Wu,Xiaosheng ZENG,Yunhe MAO,Shuangquan Chen,Yanding Liu. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2023-06-08.

Customized shoe body model design method and device based on user customized information

Номер патента: CN115024559A. Автор: 张辉,林子森. Владелец: Guangdong Shidi Intelligent Technology Co Ltd. Дата публикации: 2022-09-09.

Low-orbit satellite beam design method and system based on interference avoidance

Номер патента: CN113873536A. Автор: 赵航,雷继兆,魏传锋,徐照博,靳艺蕙,孙应兵. Владелец: Dongfanghong Satellite Mobile Communication Co Ltd. Дата публикации: 2021-12-31.

Hypersonic velocity isolation section design method and system based on coupling optimization with front fuselage

Номер патента: CN110414168B. Автор: 徐阳,范晓樯,熊冰,蒙泽威,王翼,莫然,刘俊兵,陈镜帆. Владелец: NATIONAL UNIVERSITY OF DEFENSE TECHNOLOGY. Дата публикации: 2020-05-08.

Digital predistorter design method and device based on power amplifier model clipping

Номер патента: CN110601665B. Автор: 李博,吴优,张铁刚,张骏飞,曾智翔,陈钊渊,高志越,张焕域. Владелец: Hainan Power Grid Co Ltd. Дата публикации: 2023-05-23.

End-edge-cloud coordination system and method based on digital retina, and device

Номер патента: US20240303957A1. Автор: WEN Gao,Feng Gao,Xiaofei Liu,Yonghong Tian,Peiyin XING,Peixi PENG. Владелец: PEKING UNIVERSITY. Дата публикации: 2024-09-12.

Dental implant reconstruction and restoration based on digital twin

Номер патента: US20230074164A1. Автор: Uri Kartoun,Partho Ghosh,Lakshmi Soumya Suggala,Raghu Bhavaraju. Владелец: International Business Machines Corp. Дата публикации: 2023-03-09.

System for probabilistic reasoning and decision making on digital twins

Номер патента: EP4235505A1. Автор: Sanjoy Paul,Zaid Tashman,Matthew Kujawinski,Neda Abolhassani,Thien Quang NGUYEN,Eric Annong Tang,Jessica Huey-Jen Yeh. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-08-30.

Large high-speed rotary device gap stacking assembly apparatus and assembly method based on digital twin

Номер патента: US20240102877A1. Автор: Jiubin Tan,Chuanzhi SUN,Huilin Wu,Yongmeng LIU. Владелец: Harbin Institute of Technology. Дата публикации: 2024-03-28.

Method and apparatus for carbon emission management based on digital twin

Номер патента: US20230177523A1. Автор: Yong Woon Kim,Chang Kyu Lee,Hyun Jeong Lee,Sang Keun Yoo. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-06-08.

Long length imaging method and device based on digital radiography

Номер патента: US12053318B2. Автор: Jun Liu,Xinyu Zhang,Minggang She,Ken Sun,Mingzhi Chen,Mona ZHANG. Владелец: Carestream Health Inc. Дата публикации: 2024-08-06.

Service providing method based on digital card connected to digital code and apparatus for performing the method

Номер патента: US20230334276A1. Автор: Sang Chul Lee,Min Ji JO,Hun Jae LEE,Seung Hyun Ko,Na Yeong HONG,Hae Won SIM. Владелец: Kakao Corp. Дата публикации: 2023-10-19.

Service providing method based on digital card connected to digital code and apparatus for performing the method

Номер патента: US12118429B2. Автор: Sang Chul Lee,Min Ji JO,Hun Jae LEE,Seung Hyun Ko,Na Yeong HONG,Hae Won SIM. Владелец: Kakao Corp. Дата публикации: 2024-10-15.

Method and system for forecasting real-time well mass flow in green energy generation utilizing digital twin technology

Номер патента: US20230144162A1. Автор: Othman Elkhomri. Владелец: Banpu Innovation and Ventures LLC. Дата публикации: 2023-05-11.

Digital twinning data simulator

Номер патента: US20240193327A1. Автор: Maharaj Mukherjee,William August Stahlhut,George Albero. Владелец: Bank of America Corp. Дата публикации: 2024-06-13.

Technology for using a simulated state of a digital twin as a password

Номер патента: US20230315834A1. Автор: Jian Wu,Cheranellore Vasudevan,Apparsamy Perumal,Sagar Krupa Satya Kunavarapu,Devang Dineshchandra PATEL. Владелец: International Business Machines Corp. Дата публикации: 2023-10-05.

Sustainable and self-adaptive federated digital twin framework

Номер патента: US20240104270A1. Автор: Kuntal Dey,Kapil SINGI,Vikrant Kaulgud,Gopal Sarma Pingali,Sankar Narayan Das,Kanchanjot Kaur PHOKELA,Padmanaban Sukhumaran. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-03-28.

System for probabilistic modeling and multi-layer modeling for digital twins

Номер патента: US20240249168A1. Автор: Sanjoy Paul,Neda Abolhassani,Jacob Charles METZGER,Hayden Freedman. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-07-25.

Analysis and evaluation system for engine quality based on big data

Номер патента: LU503784B1. Автор: Ying Yang,Shuaihu Yang. Владелец: Univ Guangxi. Дата публикации: 2023-10-02.

End-edge-cloud coordination system and method based on digital retina, and device

Номер патента: EP4311202A1. Автор: WEN Gao,Feng Gao,Xiaofei Liu,Yonghong Tian,Peiyin XING,Peixi PENG. Владелец: PEKING UNIVERSITY. Дата публикации: 2024-01-24.

System architecture design blocks

Номер патента: SG11201903571PA. Автор: Matthew Dill,Akshay CHOPRA. Владелец: Visa Int Service Ass. Дата публикации: 2019-05-30.

System for performing virtual image quality assessment of image data based on digital twin and operating method thereof

Номер патента: US20240221137A1. Автор: Sangmin Kim,Jintae Jang,Jeong Yong Shin. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2024-07-04.

Configuring a digital twin for software testing

Номер патента: EP4420007A1. Автор: Ishan Vaishnavi,Emmanouil Pateromichelakis. Владелец: Lenovo Singapore Pte Ltd. Дата публикации: 2024-08-28.

Digital twin based data dependency integration in amelioration management of edge computing devices

Номер патента: US20240330715A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Atul Mene. Владелец: International Business Machines Corp. Дата публикации: 2024-10-03.

Configuring a digital twin for software testing

Номер патента: GB2629263A. Автор: VAISHNAVI Ishan,Pateromichelakis Emmanouil. Владелец: Lenovo Singapore Pte Ltd. Дата публикации: 2024-10-23.

Electronic device using digital twin model and method for operating same

Номер патента: EP4394722A1. Автор: Chaiman Lim,Sangbeom NAM,Jaemyeon Lee,Myungkil KANG. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2024-07-03.

Predictive load modeling using a digital twin of a computing infrastructure

Номер патента: US20240256361A1. Автор: Maharaj Mukherjee,George Albero,Jinna Zevulun Kim,Timothy Scott Murphy. Владелец: Bank of America Corp. Дата публикации: 2024-08-01.

Scalable digital twin service system and method

Номер патента: US20240152724A1. Автор: Hyunjin Kim,Ji Eun Kim,Mi Suk Lee,Woo-Sug Jung,Ki-Sook Chung. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-05-09.

A low latency reinforcement learning-supported and digital twin-enabled data traffic management and optimization system for 6g smart city infrastructures and an operation method thereof

Номер патента: WO2024162924A1. Автор: Hamed Ahmadi,Berk Canberk,Özgür PALANTÖKEN,Gökhan YURDAKUL,Yağmur YİĞİT,Trang HOANG,Trung Quang DUONG. Владелец: Bts Kurumsal Bi̇li̇şi̇m Teknoloji̇leri̇ Anoni̇m Şi̇rketi̇. Дата публикации: 2024-08-08.

Method and system for managing access to data of digital twin in industrial system

Номер патента: EP4446922A1. Автор: Ravishankar Y A,Sukumara THANGAVELU,Bharath DHANANJAYA. Владелец: ABB Schweiz AG. Дата публикации: 2024-10-16.

Method and System for Managing Access to Data of Digital Twin in Industrial System

Номер патента: US20240346160A1. Автор: Ravishankar Y A,Sukumara THANGAVELU,Bharath DHANANJAYA. Владелец: ABB Schweiz AG. Дата публикации: 2024-10-17.

Energy consumption optimization in digital twin applications

Номер патента: US20240319774A1. Автор: Xi Li,Xavier Costa Perez,Josep Xavier Salvat Lozano,Lanfranco Zanzi. Владелец: NEC Laboratories Europe GmbH. Дата публикации: 2024-09-26.

System for probabilistic reasoning and decision making on digital twins

Номер патента: US20230274170A1. Автор: Sanjoy Paul,Zaid Tashman,Matthew Kujawinski,Neda Abolhassani,Thien Quang NGUYEN,Eric Annong Tang,Jessica Huey-Jen Yeh. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-08-31.

Machine learning-based system architecture determination

Номер патента: EP4143747A1. Автор: Lucia MIRABELLA,Mike Nicolai,Wesley REINHART,Janani VENUGOPALAN. Владелец: Siemens Industry Software NV. Дата публикации: 2023-03-08.

Machine learning-based system architecture determination

Номер патента: WO2021247035A1. Автор: Lucia MIRABELLA,Mike Nicolai,Wesley REINHART,Janani VENUGOPALAN. Владелец: Siemens Industry Software NV. Дата публикации: 2021-12-09.

Systems, Methods, and Apparatus For Synchronizing Digital Twins

Номер патента: US20240086595A1. Автор: Daniel M. Newman,Liessman E. Sturlaugson,Peter G. Rhodes. Владелец: Boeing Co. Дата публикации: 2024-03-14.

Gene-based digital twin system that can predict medical risk

Номер патента: US20240266059A1. Автор: Sijung Yun. Владелец: Predictiv Care Inc. Дата публикации: 2024-08-08.

Automated standardized location digital twin and location digital twin method factoring in dynamic data at different construction levels, and system thereof

Номер патента: EP4427176A1. Автор: Philip BRANDL. Владелец: Swiss Reinsurance Co Ltd. Дата публикации: 2024-09-11.

Disease or drug association providing system for digital twins with genetic information screened by artificial intelligence

Номер патента: US20240265997A1. Автор: Sijung Yun. Владелец: Predictiv Care Inc. Дата публикации: 2024-08-08.

Systems, methods, and apparatuses for generating a digital twin of a resource using partial sensor data and artificial intelligence

Номер патента: US20240338592A1. Автор: Vijay Kumar Yarabolu,Gowthaman Sundararaj. Владелец: Bank of America Corp. Дата публикации: 2024-10-10.

Monitoring system and method based on digital converter station

Номер патента: US12094191B2. Автор: Zhou Chen,WEI Jin,Wei Cheng,Ming Li,Xiang Zhang,Qing Wang,Ning Zhao,Siyuan LIU,Haifeng Wang,Hanqing ZHAO,Xiaojun Hou,Chong TONG,Jun Lyu,Xianshan GUO,Yanguo Wang,Zhanguo ZHANG. Владелец: Beijing Sgitg Accenture Information Technology Center Co Ltd. Дата публикации: 2024-09-17.

System and method for cloud architecture design and diagram generation using artificial intelligence

Номер патента: US20240345897A1. Автор: Manish Ahuja,Kuntal Dey,Kapil SINGI,Vikrant Kaulgud,Adam Patten BURDEN,Swapnajeet GON CHOUDHURY. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-10-17.

Method and system for testing functionality of a software program using digital twin

Номер патента: US20240354242A1. Автор: Sandesh Naik,Saurav Daga,Murali Tharan GNANAMANI,Keith Andress,Tasheer Hussain B. Владелец: Siemens Medical Solutions USA Inc. Дата публикации: 2024-10-24.

Real-time information distribution system based on digital line using intelligent terminal and method of distributing information

Номер патента: RU2714368C2. Автор: Йонг-Гиун ШИН. Владелец: Дзе Сиг Инститьют Ко., Лтд.. Дата публикации: 2020-02-14.

Building data platform with a distributed digital twin

Номер патента: US20230273922A1. Автор: Miguel Galvez,Ambuj Shatdal,Rajiv Ramanasankaran,Dominick James O'Dierno,Brian Scott Otto,Trent Mark Swanson. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-08-31.

Virtually monitoring blood pressure levels in a patient using machine learning and digital twin technology

Номер патента: WO2022050991A1. Автор: JAHANGIR Mohammed,James Wilson,Terrence Chun Yin POON,Frederick HADLEY. Владелец: Twin Health, Inc.. Дата публикации: 2022-03-10.

Apparatus and method for providing digital twin book shelf

Номер патента: US12026813B2. Автор: Sanghyo LEE,Samrak Choi,Uiyoung KIM. Владелец: Woongjin Thinkbig Co Ltd. Дата публикации: 2024-07-02.

Methods and systems for digital twin augmented reality replication of non-homogeneous elements in integrated environments

Номер патента: EP4272177A1. Автор: Jorge McBAIN. Владелец: Network Documentation & Implementation Inc. Дата публикации: 2023-11-08.

Method and system for generating a metabolic digital twin for clinical decision support

Номер патента: WO2022225460A1. Автор: Arsen BATAGOV,En-Tzu Andrew WU. Владелец: Mesh Bio Pte. Ltd.. Дата публикации: 2022-10-27.

Integration of disparate system architectures using configurable isolated memory regions and trust domain conversion bridge

Номер патента: US20190042482A1. Автор: Peter Munguia,Gregg Lahti,Aditya Katragada. Владелец: Intel Corp. Дата публикации: 2019-02-07.

System and method for managing data workflows using digital twins

Номер патента: US20240362561A1. Автор: Tomer Kushnir,Maxim Balin,Ofir Ezrielev. Владелец: Dell Products LP. Дата публикации: 2024-10-31.

Generating simulation scenarios and digital media using digital twins

Номер патента: US20230334773A1. Автор: Thomas Henry,Apurva Shah. Владелец: Duality Robotics Inc. Дата публикации: 2023-10-19.

Long length imaging method and device based on digital radiography

Номер патента: US20220280129A1. Автор: Jun Liu,Xinyu Zhang,Minggang She,Ken Sun,Mingzhi Chen,Mona ZHANG. Владелец: Carestream Health Inc. Дата публикации: 2022-09-08.

System architecture design blocks

Номер патента: US20190317651A1. Автор: Matthew Dill,Akshay CHOPRA. Владелец: VISA INTERNATIONAL SERVICE ASSOCIATION. Дата публикации: 2019-10-17.

Digital twin based home evaluation engine

Номер патента: US20230394198A1. Автор: Maharaj Mukherjee,Carl M. Benda. Владелец: Bank of America Corp. Дата публикации: 2023-12-07.

System and method for managing data in digital twins

Номер патента: WO2023194858A1. Автор: James Dobson,Adam Durant. Владелец: Satavia Limited. Дата публикации: 2023-10-12.

Systems and methods to adjust in-vehicle content based on digital assets

Номер патента: US20230036724A1. Автор: Alif Khalfan. Владелец: Disney Enterprises Inc. Дата публикации: 2023-02-02.

Building data platform with digital twin triggers and actions

Номер патента: US11769066B2. Автор: Young M. Lee,Rajiv Ramanasankaran. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2023-09-26.

Object-oriented design method for the time-effective and cost-effective development of production-grade embedded systems based on a standardized system architecture

Номер патента: WO2004019239A2. Автор: Rokus H. J. Van Dalen. Владелец: Windmill Microsystems Holding BV. Дата публикации: 2004-03-04.

Precision treatment with machine learning and digital twin technology for optimal metabolic outcomes

Номер патента: US20210196195A1. Автор: Terrence Chun Yin POON,Frederick HADLEY,Thomas Alan DUNLAP. Владелец: Twin Health Inc. Дата публикации: 2021-07-01.

Computer-implemented systems and methods for linking a blockchain to a digital twin

Номер патента: US11652634B2. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: Nchain Licensing AG. Дата публикации: 2023-05-16.

Computer-implemented systems and methods for linking a blockchain to a digital twin

Номер патента: US12081671B2. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: Nchain Licensing AG. Дата публикации: 2024-09-03.

Digital twin computer simulation using synchronization of body organ for determining compatibility

Номер патента: US20230343465A1. Автор: Sarbajit K. Rakshit,Amitava Kundu,Sidharth Ullal,Raghuveer Prasad NAGAR. Владелец: International Business Machines Corp. Дата публикации: 2023-10-26.

Techniques and graphics-processing aspects for enabling scene responsiveness in mixed-reality environments, including by using situated digital twins, and systems and methods of use thereof

Номер патента: US20240338908A1. Автор: Rajinder Sodhi,Mohamed Kari. Владелец: Meta Platforms Technologies LLC. Дата публикации: 2024-10-10.

Techniques and graphics-processing aspects for enabling scene responsiveness in mixed-reality environments, including by using situated digital twins, and systems and methods of use thereof

Номер патента: WO2024211653A1. Автор: Rajinder Sodhi,Mohamed Kari. Владелец: Meta Platforms Technologies, LLC. Дата публикации: 2024-10-10.

Method and apparatus for digital twin virtual-reality synchronization mapping of mechanical arm

Номер патента: US20240354657A1. Автор: HAO LI,Xiaoyu WEN,Linli Li,Wenchao Yang,Yuyan ZHANG,Haoqi WANG,Gen Liu,Shizhong WEI,Weifei GUO,Xingyou HE. Владелец: Zhengzhou University of Light Industry. Дата публикации: 2024-10-24.

Diagnostic representation and interpretation of ecg leads on digital display

Номер патента: RU2677797C2. Автор: Патрик ГИНИ,Уилльям Дуглас ГРУБЕ,Ричард Е. ГРЕГГ. Владелец: КОНИНКЛЕЙКЕ ФИЛИПС Н.В.. Дата публикации: 2019-01-21.

System and method for evaluating system architectures

Номер патента: US20070260436A1. Автор: John Hammond,Jerry Couretas,Vee Adrounie. Владелец: Lockheed Martin Integrated Systems and Solutions. Дата публикации: 2007-11-08.

Event processing and prediction updating at a digital twin

Номер патента: US20240028794A1. Автор: Sanjay PODDER,Venkatesh Subramanian,Kuntal Dey,Nataraj Kuntagod,Senthil Kumar Kumaresan,Satya SAI SRINIVAS,Suresh KUMAR MANI. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-01-25.

Digital twin for ai/ml training and testing

Номер патента: WO2024102126A1. Автор: Antonio Forenza,Kexuan Sun. Владелец: Rakuten Symphony Uk Ltd. Дата публикации: 2024-05-16.

Verifying a user based on digital fingerprint signals derived from out-of-band data

Номер патента: EP3207451A1. Автор: Wendell Brown. Владелец: CloudWear Inc. Дата публикации: 2017-08-23.

Digital twin data model driven high-performance virtual simulation method and system

Номер патента: US20240184940A1. Автор: Fei Tao,Lin LV,Lili DONG,Tianliang HU,Songhua Ma. Владелец: Shandong University. Дата публикации: 2024-06-06.

Systems and methods for effectuating real-world outcomes based on digital assets of users

Номер патента: US20230169492A1. Автор: Alif Khalfan. Владелец: Disney Enterprises Inc. Дата публикации: 2023-06-01.

Hologram color designation system and hologram color designation method based on dithering mask

Номер патента: EP4231099A1. Автор: Jiseok Lee,Inkyu Jeon,Sanggyun Jeong. Владелец: UNIST Academy Industry Research Corp. Дата публикации: 2023-08-23.

Method and apparatus for configurating digital twin

Номер патента: US11928103B2. Автор: Hyun Jeong Lee,Yong-Woon Kim,Jun Seob Lee,Sangkeun YOO. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-03-12.

Preserving Enterprise Artifacts Using Digital Twin Technology And Intelligent Smart Contracts

Номер патента: US20240037004A1. Автор: Prasad Balkrishna Bag. Владелец: Bank of America Corp. Дата публикации: 2024-02-01.

System and method for immersive training using augmented reality using digital twins and smart glasses

Номер патента: US20240071003A1. Автор: Nick Cherukuri. Владелец: Thirdeye Gen Inc. Дата публикации: 2024-02-29.

Utilizing digital twins for data-driven risk identification and root cause analysis of a distributed and heterogeneous system

Номер патента: US20240168857A1. Автор: Manish Ahuja,Kuntal Dey,Kapil SINGI,Teresa Sheausan Tung,Mahesh Venkataraman,Mallika Fernandes,Vikrant Kaulgud,Swapnajeet GON CHOUDHURY,Kanchanjot Kaur PHOKELA,Reuben Rajan George. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-05-23.

Digital twin for rig operations

Номер патента: US20230206779A1. Автор: Pradeep Annaiyappa,Malini Manocha. Владелец: Nabors Drilling Technologies USA Inc. Дата публикации: 2023-06-29.

Digital twin method and apparatus

Номер патента: US20240160466A1. Автор: Xiaobo Wu,Yannan YUAN. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-05-16.

Digital twinning method and apparatus

Номер патента: EP4376468A1. Автор: Xiaobo Wu,Yannan YUAN. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-05-29.

System for detection and analysis of fibrous root system architecture of plant

Номер патента: EP3885697A1. Автор: Yan Ming,MEI Hanwei,LOU Qiaojun,FENG Fangjun,GAO Huan. Владелец: SHANGHAI AGROBIOLOGICAL GENE CENTER. Дата публикации: 2021-09-29.

NANOWIRE-BASED µLED DISPLAY DESIGN METHOD

Номер патента: EP4044235A1. Автор: Tailiang Guo,Jianmin Yao,Yun Ye,Qun Yan,Zongzhao JIANG,Hongxing XIE. Владелец: Univ Fu Zhou. Дата публикации: 2022-08-17.

Dynamic arrangement of vehicles based on load capacity of smart crossing

Номер патента: US20240185710A1. Автор: Sarbajit K. Rakshit,Sudheesh S. Kairali. Владелец: International Business Machines Corp. Дата публикации: 2024-06-06.

Digital twin lubrication simulation

Номер патента: US11934755B2. Автор: Sarbajit K. Rakshit,Mukundan Sundararajan. Владелец: International Business Machines Corp. Дата публикации: 2024-03-19.

Drill bit design method based on rock crushing principle with local variable strength

Номер патента: US20220374561A1. Автор: Qiang Han,Yingjie Chen,Guangjian Dong,Jianhong FU,Kanhua Su. Владелец: SOUTHWEST PETROLEUM UNIVERSITY. Дата публикации: 2022-11-24.

Method and apparatus for digital twin federation

Номер патента: US12045238B2. Автор: Hyun Jeong Lee,Yong-Woon Kim,Changkyu LEE,Sangkeun YOO. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-07-23.

Application method, system, medium and device of digtial assets based on digtial products

Номер патента: US20230394489A1. Автор: Ming Zhou,Yongsheng Wang,Zhen Hua. Владелец: Individual. Дата публикации: 2023-12-07.

Verifying a digital twin of a subject

Номер патента: US20240290502A1. Автор: Cornelis Petrus Hendriks,Valentina LAVEZZO,Murtaza Bulut,Harm Cronie,Lieke Gertruda Elisabeth Cox. Владелец: Koninklijke Philips NV. Дата публикации: 2024-08-29.

Systems and methods to search for digital twins

Номер патента: EP4445293A1. Автор: Xi Wang,Si Wu,Chuantao YIN. Владелец: ORANGE SA. Дата публикации: 2024-10-16.

Digital twin based evaluation, prediction, and forecasting for agricultural products

Номер патента: US20240070527A1. Автор: Maharaj Mukherjee,Carl M. Benda. Владелец: Bank of America Corp. Дата публикации: 2024-02-29.

Workplace enhancement via digital twin-based simulation

Номер патента: US20230259864A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Clement Decrop. Владелец: International Business Machines Corp. Дата публикации: 2023-08-17.

Ultra-short baseline underwater acoustic positioning system for simulation based on digitized models and debugging method

Номер патента: NL2032139B1. Автор: Wang Dongming,WANG Juncheng,Wang Zhongqiu,LI YUNZHOU,Qi Suiping. Владелец: Inst Oceanographic Instr Shandong Academy Of Sciences. Дата публикации: 2023-12-20.

Digital twin simulation of an article

Номер патента: US20220171898A1. Автор: Sarbajit K. Rakshit,Amitava Maity. Владелец: International Business Machines Corp. Дата публикации: 2022-06-02.

Retrieving personalized visual content items in real time for display on digital-content-display devices within a physical space

Номер патента: US20220147300A1. Автор: Georgios Theocharous,Jennifer Healey,Haoliang WANG. Владелец: Adobe Inc. Дата публикации: 2022-05-12.

Advanced discrete control device diagnostic on digital output modules

Номер патента: US20170365153A1. Автор: Michael D. Carney,Nagaraja Sundaresh,Shankar Rao PENDYALA,Shripad K. PANDE. Владелец: Honeywell International Inc. Дата публикации: 2017-12-21.

Cyber digital twin simulator for security controls requirements

Номер патента: US11750657B2. Автор: Dan Klein,Eitan Hadar,Alexander Basovskiy,Dmitry KRAVCHENKO. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-09-05.

Thermochemical digital twin of electrical transformer

Номер патента: WO2024156373A1. Автор: Luiz V. CHEIM,George K. Frimpong,Alan SBRAVATI. Владелец: Hitachi Energy Ltd. Дата публикации: 2024-08-02.

Dynamic digital image compression based on digital image characteristics

Номер патента: US09800882B2. Автор: Evan K. Fram. Владелец: DR Systems Inc. Дата публикации: 2017-10-24.

System and method for establishment of individual model of patient's anatomical structure based on digital image

Номер патента: RU2642913C2. Автор: ЙЕЛИН Эйнав НАМЕР,Ран Бронштейн,Боац Дов ТАЛ. Владелец: СИМБИОНИКС ЛТД.. Дата публикации: 2018-01-29.

System for automated generative design synthesis using data from design tools and knowledge from a digital twin graph

Номер патента: WO2018183275A1. Автор: Arquimedes Martinez Canedo,Livio Dalloro,Sanjeev Srivastava,Lucia MIRABELLA,Suraj Ravi MUSUVATHY,Edward Slavin Iii,Erhan Arisoy. Владелец: SIEMENS AKTIENGESELLSCHAFT. Дата публикации: 2018-10-04.

Methods and systems for digital twin augmented reality replication of non-homogeneous elements in integrated environments

Номер патента: US11922589B2. Автор: Jorge McBAIN. Владелец: Network Documentation & Implementation Inc. Дата публикации: 2024-03-05.

Automated standardized location digital twin and location digital twin method factoring in dynamic data at different construction levels, and system thereof

Номер патента: US20240046001A1. Автор: Philip BRANDL. Владелец: Swiss Reinsurance Co Ltd. Дата публикации: 2024-02-08.

System for automated generative design synthesis using data from design tools and knowledge from a digital twin graph

Номер патента: CA3057973C. Автор: Arquimedes Martinez Canedo,Livio Dalloro,Sanjeev Srivastava,Lucia MIRABELLA,Suraj Ravi MUSUVATHY,Edward Slavin Iii,Erhan Arisoy. Владелец: SIEMENS AG. Дата публикации: 2023-10-10.

Computer technology for controlling digital twin simulation in voice assistant devices

Номер патента: US20230419954A1. Автор: Sarbajit K. Rakshit,Akash U. Dhoot,Shailendra Moyal,Shilpa Bhagwatprasad Mittal. Владелец: International Business Machines Corp. Дата публикации: 2023-12-28.

Industrial blockchain digital twin change management

Номер патента: US20240104087A1. Автор: David A. Vasko,Kenneth W. Batcher,Juergen K. Weinhofer,Sharath Chander Reddy Baddam,Timothy S. Biernat. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-03-28.

Cyber digital twin simulator for automotive security assessment based on attack graphs

Номер патента: US11973790B2. Автор: Dan Klein,Elad Segev. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-04-30.

Cyber digital twin simulator for automotive security assessment based on attack graphs

Номер патента: US20220150270A1. Автор: Dan Klein,Elad Segev. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2022-05-12.

Methods and systems for digital twin augmented reality replication of non-homogeneous elements in integrated environments

Номер патента: US20210248825A1. Автор: Jorge McBAIN. Владелец: Network Documentation & Implementation Inc. Дата публикации: 2021-08-12.

Digital twin exchange filtering of digital resources based on owned assets

Номер патента: US11983755B2. Автор: Lisa Seacat Deluca,Jeremy R. Fox,Zachary A. Silverstein. Владелец: International Busi Corp Ess Machines. Дата публикации: 2024-05-14.

Digital twin-based simulation of carrier propagation

Номер патента: US20230077192A1. Автор: RAVI VADLAMANI,Sarbajit K. Rakshit,Venkata Vara Prasad Karri,Akash U. Dhoot,Saraswathi Sailaja Perumalla. Владелец: International Business Machines Corp. Дата публикации: 2023-03-09.

Method for managing communication authority based on multi-energy equipment data flow using digital twin and a system thereof

Номер патента: US20220141232A1. Автор: RUIFENG ZHANG,He Yang,ZHEN Li,Xiang Fan,Bin Sun,Qingsheng Li,Xueyong TANG,Yankan SONG,Huijiang WAN,Qinfeng MA,Zhitong YU,Weijie QIU,Peng AI. Владелец: Guizhou Power Grid Co Ltd. Дата публикации: 2022-05-05.

Method and system for constructing digital twin of cooking target linked with kitchen appliance

Номер патента: US20230409782A1. Автор: Eric Liu,Wangsoo KIM,Jeong-Ho YUN,Elijah PARK,Joungok KO. Владелец: Simacro. Дата публикации: 2023-12-21.

A digital twin framework of weld joint fatigue based on structural stress method

Номер патента: US20230342522A1. Автор: Wei Sun,Liangliang Yang,Xueguan SONG,Xiaonan LAI,Xiwang HE,Kunpeng LI,Yitang WANG. Владелец: Dalian University of Technology. Дата публикации: 2023-10-26.

Care village digital twin system and method

Номер патента: WO2024118347A1. Автор: Peter Williams,Rafael Saavedra,Chia-Lin Simmons. Владелец: LogicMark, Inc.. Дата публикации: 2024-06-06.

Apparatus and method for generating high voltage based on digital control

Номер патента: US20070016335A1. Автор: Young-min Chae,Jun-Seok Cho. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2007-01-18.

Personalized product recommendations based on an itinerary

Номер патента: GB2624294A. Автор: Kumar Agrawal Amit,Raju Srikanth,Prasad Herur Rajashekaraiah Renuka,Bharat Desai Rahul. Владелец: MOTOROLA MOBILITY LLC. Дата публикации: 2024-05-15.

Operations and maintenance system and method employing digital twins

Номер патента: US12056423B2. Автор: John P. Volpi,Steven D. Roemerman. Владелец: Incucomm Inc. Дата публикации: 2024-08-06.

Personal medical product design method based on audio port

Номер патента: US20160015325A1. Автор: Zhufa Lin. Владелец: Individual. Дата публикации: 2016-01-21.

Digital twin operation device, digital twin operation method, program and data structure

Номер патента: EP3982260A1. Автор: Hiroyuki Tanaka,Hiroshi Sakai,Yasuhiro Iida,Hiroshi Ogawa,Takao Nakamura,Yukio Koike,Ryutaro Kawamura,Koya MORI,Masayuki Hanadate,Shigekuni KONDO. Владелец: Nippon Telegraph and Telephone Corp. Дата публикации: 2022-04-13.

Pulp diagnosis-treatment assistance method and system based on digital dynamic guide

Номер патента: US20240033006A1. Автор: Xiaonan WANG,Liuyan MENG,Weiwei QIAO,Zhuan BIAN. Владелец: Wuhan University WHU. Дата публикации: 2024-02-01.

Digital twin maturation tracking

Номер патента: US12093158B2. Автор: Lisa Seacat Deluca,Joseph G. Berti. Владелец: International Business Machines Corp. Дата публикации: 2024-09-17.

Method, apparatus, and computer program product for displaying virtual graphical data based on digital signatures

Номер патента: US12094163B2. Автор: Mark Thompson,Ofer Melnik,Alastair Sutherland. Владелец: Here Global BV. Дата публикации: 2024-09-17.

Digital twins of chemical products

Номер патента: WO2024213402A1. Автор: Gabriele ECKARDT,Claudia Elena HERRERA GARCIA,Felipe BUSTILLO MEDINA,George Valentin UTUTUI,Guel BEKCIOGLU-NEFF,Carsten Hoff. Владелец: BASF SE. Дата публикации: 2024-10-17.

Design method of large cruise furniture bed based on qfd and information feedback

Номер патента: NL2032938A. Автор: Shi Lei,Zhang Xuehui,ZHANG Yongjie,CUI Bo,Yu Xuechao,Jiang Yuefan,Cao Kang. Владелец: Univ Northwestern Polytechnical. Дата публикации: 2022-11-23.

Design method of large cruise furniture bed based on qfd and information feedback

Номер патента: NL2032938B1. Автор: Shi Lei,Zhang Xuehui,ZHANG Yongjie,CUI Bo,Yu Xuechao,Jiang Yuefan,Cao Kang. Владелец: Univ Northwestern Polytechnical. Дата публикации: 2023-12-15.

Systems and methods for controlling access to a digital twin of a chemical product

Номер патента: WO2024213404A1. Автор: Gabriele ECKARDT,Claudia Elena HERRERA GARCIA,Felipe BUSTILLO MEDINA,George Valentin UTUTUI,Guel BEKCIOGLU-NEFF,Carsten Hoff. Владелец: BASF SE. Дата публикации: 2024-10-17.

Digital twin generation using streaming of chemical product data

Номер патента: WO2024213403A1. Автор: Gabriele ECKARDT,Claudia Elena HERRERA GARCIA,Felipe BUSTILLO MEDINA,George Valentin UTUTUI,Guel BEKCIOGLU-NEFF,Carsten Hoff. Владелец: BASF SE. Дата публикации: 2024-10-17.

Automatic online registration based on data extracted from a digital image

Номер патента: US09923991B2. Автор: Alex Lai,Songtao Guo,Chris Degiere. Владелец: Microsoft Technology Licensing LLC. Дата публикации: 2018-03-20.

Modelling method based on polygonal cutting from thick-sheeted material

Номер патента: RU2688300C1. Автор: Сергей Магомедович Кадиев. Владелец: Федеральное государственное бюджетное образовательное учреждение высшего образования "Саратовский государственный технический университет имени Гагарина Ю.А." (СГТУ имени Гагарина Ю.А.). Дата публикации: 2019-05-21.

Method and system for building digital twin by leveraging prior knowledge

Номер патента: EP4040343A1. Автор: Rajan Kumar,VIVEK Kumar,Venkataramana Runkana. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2022-08-10.

Apparatus and method for providing digital twin book shelf

Номер патента: US20220084268A1. Автор: Sanghyo LEE,Samrak Choi,Uiyoung KIM. Владелец: Woongjin Thinkbig Co Ltd. Дата публикации: 2022-03-17.

Evaluation of digital twins using social automatons

Номер патента: US20210223854A1. Автор: Eric Zavesky,Robert Gratz,Jason Decuir. Владелец: AT&T INTELLECTUAL PROPERTY I LP. Дата публикации: 2021-07-22.

Monitoring system and method based on digital converter station

Номер патента: AU2023296339A1. Автор: Zhou Chen,WEI Jin,Wei Cheng,Ming Li,Xiang Zhang,Qing Wang,Ning Zhao,Siyuan LIU,Haifeng Wang,Hanqing ZHAO,Xiaojun Hou,Chong TONG,Jun Lyu,Xianshan GUO,Yanguo Wang,Zhanguo ZHANG. Владелец: State Grid Economic And Technological Research Institute Co Ltd. Дата публикации: 2024-03-28.

Building data platform with digital twin triggers and actions

Номер патента: US20240086740A1. Автор: Young M. Lee,Rajiv Ramanasankaran. Владелец: Tyco Fire and Security GmbH. Дата публикации: 2024-03-14.

Gene-based digital twin system that can predict medical risk

Номер патента: WO2023196868A1. Автор: Sijung Yun. Владелец: Predictiv Care, Inc.. Дата публикации: 2023-10-12.

Method and system for building digital twin by leveraging prior knowledge

Номер патента: US20220284157A1. Автор: Rajan Kumar,VIVEK Kumar,Venkataramana Runkana. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2022-09-08.

Machine learning-based system architecture determination

Номер патента: US20230205953A1. Автор: Lucia MIRABELLA,Mike Nicolai,Wesley REINHART,Janani VENUGOPALAN. Владелец: Siemens Industry Software NV. Дата публикации: 2023-06-29.

Sanitation management based on digital twin

Номер патента: US11915575B2. Автор: Partho Ghosh,Samaya Madhavan,Laura Jane Bennett,Anamita Guha. Владелец: International Business Machines Corp. Дата публикации: 2024-02-27.

Evaluation of digital twins using social automatons

Номер патента: US20210341994A1. Автор: Eric Zavesky,Robert Gratz,Jason Decuir. Владелец: AT&T INTELLECTUAL PROPERTY I LP. Дата публикации: 2021-11-04.

System and method for managing data in digital twins

Номер патента: GB2617364A. Автор: Durant Adam,Dobson James. Владелец: Satavia Ltd. Дата публикации: 2023-10-11.

Automonous digital twin generation using edge-nodes

Номер патента: US20240193439A1. Автор: Maharaj Mukherjee. Владелец: Bank of America Corp. Дата публикации: 2024-06-13.

Association rule mining method based on vector operations

Номер патента: NL1042116B1. Автор: Zhou Bin,Li Bo,PEI Zheng. Владелец: Univ Xihua. Дата публикации: 2017-09-07.

Method and system for rapid generation and adaptation of industrial digital twin models

Номер патента: EP4372601A1. Автор: Venkataramana Runkana,Shirish Subhash Karande,Lovekesh VIG,Anirudh DEODHAR,Vishal Sudam Jadhav,Ritam Majumdar. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2024-05-22.

Gradient boosting tree-based spatial line grouping on digital ink strokes

Номер патента: US20230143969A1. Автор: Sheng Yi,Tianyi Chen,Biyi FANG. Владелец: Microsoft Technology Licensing LLC. Дата публикации: 2023-05-11.

Apparatus and method of generating context-customized digital twin

Номер патента: US20230297735A1. Автор: Hyunjin Kim,Ji Eun Kim,Mi Suk Lee,Woo-Sug Jung,Ki-Sook Chung,Seung Il MYUNG. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-09-21.

Computer technology for ensuring sufficiency of sensor set used to support digital twin simulcra

Номер патента: US20240242008A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Atul Mene. Владелец: International Business Machines Corp. Дата публикации: 2024-07-18.

Association rule mining method based on vector operations

Номер патента: NL1042116A. Автор: Zhou Bin,Li Bo,PEI Zheng. Владелец: Univ Xihua. Дата публикации: 2017-05-19.

Agricultural field analysis system for generating a field digital twin

Номер патента: US20240273712A1. Автор: Naira Hovakimyan,David Wilson,Jennifer HOBBS,Greg Rose,Adrian Tutor. Владелец: Intleinair Inc. Дата публикации: 2024-08-15.

System and methods for updating digital twins

Номер патента: US20240281671A1. Автор: Kuntal Dey,Kapil SINGI,Teresa Sheausan Tung,Vikrant Kaulgud,Kanchanjot Kaur PHOKELA. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2024-08-22.

System and method for managing service requests of a restoring device using a digital twin

Номер патента: US20240289161A1. Автор: Parminder Singh Sethi,Atishay Jain,Nithish Kn. Владелец: Dell Products LP. Дата публикации: 2024-08-29.

Digital twin for composite material repair, intelligent repair method, and intelligent repair system

Номер патента: WO2024217297A1. Автор: Yan Kan,Xin Fan,Xuefeng Yao,Xiaoyao XU,Shanyong XUAN. Владелец: Wuhu Machinery Factory. Дата публикации: 2024-10-24.

Data integrity control method based on pascal cryptographic triangle

Номер патента: RU2730365C1. Автор: Олег Анатольевич Финько,Дмитрий Владимирович Самойленко,Сергей Александрович Диченко. Владелец: федеральное государственное казенное военное образовательное учреждение высшего образования "Краснодарское высшее военное орденов Жукова и Октябрьской Революции Краснознаменное училище имени генерала армии С.М. Штеменко". Дата публикации: 2020-08-21.

Device and method for generation of output signals based on audio source signal, audio reproductive system and loudspeaker signal

Номер патента: RU2686026C2. Автор: Бернхард НОЙГЕБАУЭР,Кристиан БОРСС,Андреас ЗИЛЬЦЛЕ,Эмануэль ХАБЕТС,Зебастьян ШЛЕХТ,Ханне ШТЕНЦЕЛЬ. Владелец: Фраунхофер-Гезелльшафт Цур Фердерунг Дер Ангевандтен Форшунг Е.Ф.. Дата публикации: 2019-04-23.

Device and method of personalized search based on product image attributes

Номер патента: RU2697739C2. Автор: Жуго БУ,Чуань МОУ. Владелец: Бейджин Цзиндун Сенчери Трейдинг Ко., Лтд.. Дата публикации: 2019-08-19.

Method and apparatus for digital twin federation

Номер патента: US20230010177A1. Автор: Hyun Jeong Lee,Yong-Woon Kim,Changkyu LEE,Sangkeun YOO. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-01-12.

System and method for providing services using digital twins

Номер патента: WO2023233246A1. Автор: Humayun Sheikh,Devon BLEIBTREY. Владелец: Fetch.AI Limited. Дата публикации: 2023-12-07.

Digital twin enabled equipment diagnostics based on acoustic modeling

Номер патента: US11874200B2. Автор: Borja Canseco,John Kaufmann,Adriel Ricardo Estrada. Владелец: International Business Machines Corp. Дата публикации: 2024-01-16.

Sensor-based digital twin system for vehicular analysis

Номер патента: US11954651B2. Автор: Yu Zhao,Shinichi Shiraishi. Владелец: Toyota Motor Corp. Дата публикации: 2024-04-09.

Precision treatment with machine learning and digital twin technology for optimal metabolic outcomes

Номер патента: US20230337977A1. Автор: Terrence Chun Yin POON,Frederick HADLEY,Thomas Alan DUNLAP. Владелец: Twin Health Inc. Дата публикации: 2023-10-26.

System architecture for implementing dds communication on basis of autosar, communication method, and device

Номер патента: EP4322483A1. Автор: Bin Jiang,Zhenfei Li,Songjun Ma,Yanqin Xu,Zhenqiang Kong. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2024-02-14.

Dynamic micro-insurance premium value optimization using digital twin based simulation

Номер патента: US20230177612A1. Автор: Shikhar KWATRA,Craig M. Trim,Kuntal Dey,Seema Nagar. Владелец: International Business Machines Corp. Дата публикации: 2023-06-08.

Configuration of a digital twin for a building or other facility via bim data extraction and asset register mapping

Номер патента: US20230359778A1. Автор: Dale Brett,Rani Adam. Владелец: Willow Ip Pty Ltd. Дата публикации: 2023-11-09.

Industrial livestock management leveraging digital twin computing

Номер патента: US11369088B2. Автор: Partho Ghosh. Владелец: International Business Machines Corp. Дата публикации: 2022-06-28.

Automatic generation of bill of process from digital twin using exploratory simulation

Номер патента: EP4102423A1. Автор: Heiko Claussen,Eugen Solowjow,Shashank Tamaskar,Juan L. Aparicio Ojea,Chengtao Wen,Wei Xi XIA,Ines UGALDE DIAZ,Yash SHAHAPURKAR,Gokul Narayanan SATHYA NARAYANAN. Владелец: SIEMENS AG. Дата публикации: 2022-12-14.

Systems and methods of digital triggers and digital twins

Номер патента: EP4035110A1. Автор: Pradeep Iyer,Michael Goller,Michael J. Kuhno,Julie VARGAS,Jeremy SCHENOF,Akari SHONO,Richard LORITSCH,Bhupesh ARORA. Владелец: AVERY DENNISON RETAIL INFORMATION SERVICES LLC. Дата публикации: 2022-08-03.

Computer-implemented systems and methods for linking a blockchain to a digital twin

Номер патента: US20230318836A1. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: Nchain Licensing AG. Дата публикации: 2023-10-05.

Computer-implemented systems and methods for combining blockchain technology with digital twins

Номер патента: WO2019087006A1. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: nChain Holdings Limited. Дата публикации: 2019-05-09.

Method and system for generating a metabolic digital twin for clinical decision support

Номер патента: EP4326144A1. Автор: Arsen BATAGOV,En-Tzu Andrew WU. Владелец: Mesh Bio Pte Ltd. Дата публикации: 2024-02-28.

Computer-implemented systems and methods for combining blockchain technology with digital twins

Номер патента: US20240080196A1. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: Nchain Licensing AG. Дата публикации: 2024-03-07.

Techniques for building digital twins of cellular networks and for navigating therewith

Номер патента: WO2023223182A1. Автор: Kim Mahler,Stephan Jaeckel. Владелец: The Joan and Irwin Jacobs Technion-Cornell Institute. Дата публикации: 2023-11-23.

Computer-implemented systems and methods for combining blockchain technology with digital twins

Номер патента: US12010233B2. Автор: Stephane Vincent,Giuseppe DESTEFANIS,Simone MADEO,Patrick MOTYLINSKI,Alexandra COVACI. Владелец: Nchain Licensing AG. Дата публикации: 2024-06-11.

Automatic generation of bill of process from digital twin using exploratory simulation

Номер патента: US20220391565A1. Автор: Heiko Claussen,Eugen Solowjow,Shashank Tamaskar,Juan L. Aparicio Ojea,Chengtao Wen,Wei Xi XIA,Ines UGALDE DIAZ,Yash SHAHAPURKAR,Gokul Narayanan SATHYA NARAYANAN. Владелец: SIEMENS AG. Дата публикации: 2022-12-08.

Digital twin based vehicle evaluation engine

Номер патента: US20240013582A1. Автор: Maharaj Mukherjee,Carl M. Benda. Владелец: Bank of America Corp. Дата публикации: 2024-01-11.

Metabolic health using a precision treatment platform enabled by whole body digital twin technology

Номер патента: US20240156404A1. Автор: WEI Tian,JAHANGIR Mohammed,Terrence Chun Yin POON,Mulk Abdul Maluk MOHAMED. Владелец: Twin Health Inc. Дата публикации: 2024-05-16.

Precision treatment platform enabled by whole body digital twin technology

Номер патента: US11957484B2. Автор: WEI Tian,JAHANGIR Mohammed,Terrence Chun Yin POON,Mulk Abdul Maluk MOHAMED. Владелец: Twin Health Inc. Дата публикации: 2024-04-16.

Industrial livestock management leveraging digital twin computing

Номер патента: US20220087228A1. Автор: Partho Ghosh. Владелец: International Business Machines Corp. Дата публикации: 2022-03-24.

Techniques for building digital twins of cellular networks and for navigating therewith

Номер патента: US20230370998A1. Автор: Kim Mahler,Stephan Jaeckel. Владелец: Joan and Irwin Jacobs Technion Cornell Institute. Дата публикации: 2023-11-16.

Method and system for generating a metabolic digital twin for clinical decision support

Номер патента: US20240212851A1. Автор: Arsen BATAGOV,En-Tzu Andrew WU. Владелец: Mesh Bio Pte Ltd. Дата публикации: 2024-06-27.

Powertrain architecture design tool

Номер патента: EP4217902A1. Автор: Gavin Williams. Владелец: Caterpillar Inc. Дата публикации: 2023-08-02.

Powertrain architecture design tool

Номер патента: WO2022066385A1. Автор: Gavin Williams. Владелец: CATERPILLAR INC.. Дата публикации: 2022-03-31.

Personalized product recommendations based on an itinerary

Номер патента: US20240112241A1. Автор: Amit Kumar Agrawal,Srikanth Raju,Rahul Bharat Desai,Renuka Prasad Herur Rajashekaraiah. Владелец: MOTOROLA MOBILITY LLC. Дата публикации: 2024-04-04.

Personalized product recommendations based on an itinerary

Номер патента: US20240112240A1. Автор: Amit Kumar Agrawal,Srikanth Raju,Rahul Bharat Desai,Renuka Prasad Herur Rajashekaraiah. Владелец: MOTOROLA MOBILITY LLC. Дата публикации: 2024-04-04.

A two-way quantum private query method based on bell states

Номер патента: AU2020100265A4. Автор: YAN Chang,Lili Yan,Shibin Zhang. Владелец: Chengdu University of Information Technology. Дата публикации: 2020-03-26.

Computer-implemented method for calculating a digital twin of a spectacle lens

Номер патента: EP4369078A1. Автор: Christoph Menke,Martin Reese. Владелец: CARL ZEISS VISION INTERNATIONAL GMBH. Дата публикации: 2024-05-15.

Foundation scour fluid-solid-soil coupling simulation method based on sph-dem coupling and multiphase flow theory

Номер патента: US20240256740A1. Автор: Wen Xiong,Rongzhao ZHANG. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2024-08-01.

Managing shipments based on data from a sensor-based automatic replenishment device

Номер патента: US11741418B1. Автор: Samuel Stevens Heyworth,Hannah McClellan Richards,Amirali Virani,Dave Jonathan Lefkow,Daniel Osias. Владелец: Amazon Technologies Inc. Дата публикации: 2023-08-29.

Method and system for application development via a graphical user interface using an entity-component-system architecture

Номер патента: US20220269489A1. Автор: Charles Duplain Cheever,Jesse Kicho Ruder,Benjamin Carroll Alcala Roth,Nikhilesh SIGATAPU,David Anthony COLE. Владелец: Monterey's Coast Inc. Дата публикации: 2022-08-25.

Massive parallel exascale storage system architecture

Номер патента: US20150261724A1. Автор: Emilio Billi. Владелец: Individual. Дата публикации: 2015-09-17.

Depression identification method based on facial video, depression identification device based on facial video, and storage medium

Номер патента: CA3166026A1. Автор: TIE Liu,Hui Ding,Yuanyuan Shang,Xiaoxu Zhao,YuChen PAN,Zhuhong Shao. Владелец: Capital Normal University. Дата публикации: 2023-08-24.

Method and system for application development via a graphical user interface using an entity-component-system architecture

Номер патента: EP4295226A1. Автор: Charles Duplain Cheever,Jesse Kicho Ruder,Benjamin Carroll Alcala Roth,Nikhilesh SIGATAPU,David Anthony COLE. Владелец: Monterey's Coast Inc. Дата публикации: 2023-12-27.

Method and system for application development via a graphical user interface using an entity-component-system architecture

Номер патента: US12023591B2. Автор: Charles Duplain Cheever,Jesse Kicho Ruder,Benjamin Carroll Alcala Roth,Nikhilesh SIGATAPU,David Anthony COLE. Владелец: Monterey's Coast Inc. Дата публикации: 2024-07-02.

Digital twin system for optimized design and verification of perovskite solar cell

Номер патента: US20240273256A1. Автор: Sang Yub Lee,Jaekyu Lee,Inpyo Cho. Владелец: KOREA ELECTRONICS TECHNOLOGY INSTITUTE. Дата публикации: 2024-08-15.

Water-pollution environmental-protection verification method and apparatus based on power grid and tax data fusion

Номер патента: US20240232771A1. Автор: Chen Zhao,Cao Liu,Hua Jiang,Xiaolin Hou,Xiaoguang Li,Guowen Li,Haisheng LI,Jiaqian Li,Caole LI,Lieyu Zhang,Jianglong CUI,Shengwang GAO. Владелец: CHINESE RESEARCH ACADEMY OF ENVIRONMENTAL SCIENCES. Дата публикации: 2024-07-11.

Apparatus, method and computer program for deriving digital twin model

Номер патента: US20240311701A1. Автор: Ji Hye JEON,Jong Ho BAIK. Владелец: Stans Inc. Дата публикации: 2024-09-19.

Determining location and sizing of a new power unit within a current system architecture of a power system or a grid

Номер патента: EP4364026A1. Автор: Xiaofan Wu,Ulrich Muenz,Suat Gumussoy. Владелец: Siemens Corp. Дата публикации: 2024-05-08.

Determining location and sizing of a new power unit within a current system architecture of a power system or a grid

Номер патента: WO2023033783A1. Автор: Xiaofan Wu,Ulrich Muenz,Suat Gumussoy. Владелец: Siemens Corporation. Дата публикации: 2023-03-09.

Determining location and sizing of a new power unit within a current system architecture of a power system or a grid

Номер патента: US20240354465A1. Автор: Xiaofan Wu,Ulrich Muenz,Suat Gumussoy. Владелец: Siemens Corp. Дата публикации: 2024-10-24.

System architecture and methods for facilitating client-side real-time auctions of advertising inventory

Номер патента: US09990656B2. Автор: Brian Schmidt,Bin Shen,David Tannenbaum,Qasim Saifee,Jarriett Robinson,Vadim Telyatnikov. Владелец: OpenX Technologies Inc. Дата публикации: 2018-06-05.

Digital twin matching for therapeutics

Номер патента: US20230172534A1. Автор: Robert Koch,TAN Xu,Brian M. NOVACK,Ari Craine,Eric Zavesky,Rashmi Palamadai,Richard Palazzo. Владелец: AT&T INTELLECTUAL PROPERTY I LP. Дата публикации: 2023-06-08.

Method and system for system architecture technology recommendation

Номер патента: US20190294977A1. Автор: Rekha Singhal,Shruti Kunde,Manoj Nambiar,Chetan PHALAK. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2019-09-26.

Monitoring system and method based on digital converter station

Номер патента: EP4362456A1. Автор: Zhou Chen,WEI Jin,Wei Cheng,Ming Li,Xiang Zhang,Qing Wang,Ning Zhao,Siyuan LIU,Haifeng Wang,Hanqing ZHAO,Xiaojun Hou,Chong TONG,Jun Lyu,Xianshan GUO,Yanguo Wang,Zhanguo ZHANG. Владелец: State Grid Economic And Technological Research Institute Co Ltd. Дата публикации: 2024-05-01.

Apparatus and method for executing digital twin

Номер патента: US20240176641A1. Автор: Ji Yeon Son,Hyun Chul KANG,Min Gi Kim,Hark Jin LEE,Eun Seo LEE,Yong Kwi Lee,Young Seog YOON,Seung Woog Jung,Young Ae CHUN. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-05-30.

Spontaneous edge application deployment and pricing method based on incentive mechanism

Номер патента: US20220156809A1. Автор: Ying Li,Zhaohui Wu,Shuiguang Deng,Jianwei Yin,Yishan Chen. Владелец: Zhejiang University ZJU. Дата публикации: 2022-05-19.

Systems and methods to search for digital twins

Номер патента: WO2023105282A1. Автор: Xi Wang,Si Wu,Chuantao YIN. Владелец: ORANGE. Дата публикации: 2023-06-15.

Simulating digital twins in a virtual reality environment

Номер патента: US20240203047A1. Автор: Fang Lu,Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal. Владелец: International Business Machines Corp. Дата публикации: 2024-06-20.

Virtual physical digital twin ecosystem

Номер патента: US20230056673A1. Автор: Partho Ghosh. Владелец: International Business Machines Corp. Дата публикации: 2023-02-23.

Powertrain architecture design tool

Номер патента: GB2598959A. Автор: WILLIAMS Gavin. Владелец: Caterpillar Inc. Дата публикации: 2022-03-23.

Point cloud denoising method based on deep learning for aircraft part

Номер патента: US11514555B2. Автор: Jun Wang,Dawei Li,Dening LU. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2022-11-29.

Scanned Digital Twin Correction using Constraint Optimization

Номер патента: US20240054264A1. Автор: Troy Aaron Harvey. Владелец: PassiveLogic Inc. Дата публикации: 2024-02-15.

Computer-implemented method for calculating a digital twin of a spectacle lens

Номер патента: WO2024100159A1. Автор: Christoph Menke,Martin Reese. Владелец: CARL ZEISS VISION INTERNATIONAL GMBH. Дата публикации: 2024-05-16.

Metrology apparatus and method based on diffraction using oblique illumination and method of manufacturing semiconductor device using the metrology method

Номер патента: US12002698B2. Автор: Myungjun Lee,Jaehwang Jung,Wookrae Kim,Jinseob KIM,Changhyeong YOON. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2024-06-04.

User equipment, base station, and wireless communication methods based on machine learning/artificial intelligence

Номер патента: WO2023133897A1. Автор: Jia SHENG,Junrong Gu. Владелец: SHENZHEN TCL NEW TECHNOLOGY CO., LTD.. Дата публикации: 2023-07-20.

Architectural design simulation system based on big data

Номер патента: LU505500B1. Автор: Shan Huang. Владелец: Univ Changsha Sci & Tech. Дата публикации: 2024-05-14.

Compositional Construction of Digital Twins

Номер патента: US20240232781A1. Автор: Allen L. Brown. Владелец: Deixis PBC. Дата публикации: 2024-07-11.

Late fusion multi-view clustering method and system based on local maximum alignment

Номер патента: US20240104170A1. Автор: Jianping Yin,Jianmin Zhao,Hongbo Li,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Weixuan Liang. Владелец: Zhejiang Normal University CJNU. Дата публикации: 2024-03-28.

System architecture switching method and apparatus

Номер патента: US20230153088A1. Автор: Xie Miao,Yuming Wu,Fangzhou LU. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2023-05-18.

Geotagged video spatial indexing method based on temporal information

Номер патента: US20230079719A1. Автор: Feng Liu,Haiying Wang,Zhigang Han,Caihui Cui,Hongquan Song,Fen Qin. Владелец: HENAN UNIVERSITY. Дата публикации: 2023-03-16.

Point cloud denoising method based on deep learning for aircraft part

Номер патента: US20210327032A1. Автор: Jun Wang,Dawei Li,Dening LU. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2021-10-21.

Digital twin

Номер патента: US12046374B2. Автор: Zhiqing Cheng,Charles Chen Cheng. Владелец: Individual. Дата публикации: 2024-07-23.

Airport gate visual docking guidance system digital twin

Номер патента: EP4006878A1. Автор: Jayaprakash Meruva,Rajesh V. Poojary,Ganapati Hegde,Sachin Kumar S.. Владелец: Honeywell International Inc. Дата публикации: 2022-06-01.

Late fusion multi-view clustering method and system based on local maximum alignment

Номер патента: ZA202310984B. Автор: Jianping Yin,Jianmin Zhao,Hongbo Li,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Weixuan Liang. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-06-26.

Airport gate visual docking guidance system digital twin

Номер патента: US20220161942A1. Автор: Jayaprakash Meruva,Rajesh V. Poojary,Ganapati Hegde,Sachin Kumar S.. Владелец: Honeywell International Inc. Дата публикации: 2022-05-26.

System architecture switching method and apparatus

Номер патента: US12050896B2. Автор: Xie Miao,Yuming Wu,Fangzhou LU. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2024-07-30.

Bird recognition method based on deep learning

Номер патента: AU2021100097A4. Автор: Alok Kumar Srivastava,Lalit Mohan Goyal,Sunny Behal,Anu Saini,Surender. Владелец: Goyal Lalit Mohan Dr. Дата публикации: 2021-04-01.

Digital twin and bioreactor for protein refolding processes

Номер патента: EP4261218A1. Автор: Christoph Herwig,Jan Niklas Pauk,Gerald Berghammer,Chika Linda Igwe. Владелец: Bilfinger Life Science Gmbh. Дата публикации: 2023-10-18.

High-resolution, accurate, two-dimensional direction-of-arrival estimation method based on coarray tensor spatial spectrum searching with co-prime planar array

Номер патента: US20210364591A1. Автор: Jiming Chen,Hang Zheng,Chengwei ZHOU,ZhiGuo Shi. Владелец: Zhejiang University ZJU. Дата публикации: 2021-11-25.

Airport gate visual docking guidance system digital twin

Номер патента: US20240278934A1. Автор: Jayaprakash Meruva,Rajesh V. Poojary,Ganapati Hegde,Sachin Kumar S.. Владелец: Honeywell International Inc. Дата публикации: 2024-08-22.

Command orchestration for digital twin models

Номер патента: US20240241753A1. Автор: Jaumir Valença da Silveira Junior. Владелец: Dell Products LP. Дата публикации: 2024-07-18.

Digital twin of a spectacle lens and spectacle lens

Номер патента: WO2024168652A1. Автор: JESTER Philipp,Ouyang Liu,Songjin ZHANG. Владелец: Carl Zeiss Vision Technical Service (Guangzhou) Ltd.. Дата публикации: 2024-08-22.

Digital twin for distributing decentralized compute resources

Номер патента: US20240323142A1. Автор: Jason Loring Canney,Hilary Joy Traut,Alexander Staples-Moore. Владелец: Oracle International Corp. Дата публикации: 2024-09-26.

Digital twin for distributing decentralized compute resources

Номер патента: WO2024196523A1. Автор: Jason Loring Canney,Hilary Joy Traut,Alexander Staples-Moore. Владелец: ORACLE INTERNATIONAL CORPORATION. Дата публикации: 2024-09-26.

Indoor Structure Segmentation Method Based on Laser Measurement Point Cloud

Номер патента: US20240303916A1. Автор: Fei Su,Guoqiang Zheng,Mingyang YU,Yaohui LIU,Yingkun Du,Jingxue Bi. Владелец: Big Data Development Center Mara Prc. Дата публикации: 2024-09-12.

System and method for testing structure mode of vibration based on digital image recognition

Номер патента: US12130209B2. Автор: YUAN Jing,Yu Zhao,Yi Han,Yongjun Zhou,Ranran LI,Yelu WANG,Yuxin XUE. Владелец: Changan University. Дата публикации: 2024-10-29.

Digital twin simulation of interactive voice response system call

Номер патента: US12052389B2. Автор: Girish Padmanabhan,Partho Ghosh,Soumitra Limaye. Владелец: International Business Machines Corp. Дата публикации: 2024-07-30.

Configurable host application for generating digital twins

Номер патента: WO2024191611A1. Автор: David M. Iodice,Amanda Nicole WHITES,Chad Robert MASON. Владелец: Northrop Grumman Systems Corporation. Дата публикации: 2024-09-19.

Distance meter on digital video camera

Номер патента: RU2689848C1. Автор: Дмитрий Александрович Рощин,Дмитрий Иванович Адволоткин. Владелец: Федеральное государственное бюджетное учреждение "3 Центральный научно-исследовательский институт" Министерства обороны Российской Федерации. Дата публикации: 2019-05-29.

Method for noiseless gradient selection of object contours on digital halftone images

Номер патента: RU2648954C2. Автор: Александр Павлович Кузин,Сергей Евгеньевич Мищенко,Дмитрий Анатольевич Безуглов. Владелец: Государственное казенное образовательное учреждение высшего образования "Российская таможенная академия". Дата публикации: 2018-03-28.

Vehicle (embodiments) and vehicle collision warning method based on time until collision

Номер патента: RU2689930C2. Автор: Райджен МАЛЛА. Владелец: ФОРД ГЛОУБАЛ ТЕКНОЛОДЖИЗ, ЭлЭлСи. Дата публикации: 2019-05-29.

Method and system of distance measurement based on surface excitation using earthed well and auxiliary earthing device

Номер патента: RU2677732C1. Автор: Сюй-сян У,КАЛАТЕХ АХМАД Акрам АХМАДИ. Владелец: ХЭЛЛИБЕРТОН ЭНЕРДЖИ СЕРВИСИЗ, ИНК.. Дата публикации: 2019-01-21.

Smart digital twin for monitoring a machine

Номер патента: US20230245503A1. Автор: John J. DONG,Naveed M. Hussain. Владелец: Boeing Co. Дата публикации: 2023-08-03.

Building data platform with digital twin inferences

Номер патента: US11934966B2. Автор: Young M. Lee,Rajiv Ramanasankaran. Владелец: Johnson Controls Tyco IP Holdings LLP. Дата публикации: 2024-03-19.

Automated kubernetes adaptation through a digital twin

Номер патента: US20240069982A1. Автор: Johannes Peter Donato ZERWAS,Patrick Michael KRÄMER,Wolfgang Leonhard KELLERER,Navidreza ASADI,Razvan-Mihai URSU,Philip RODGERS,Jee Chang Leon WONG. Владелец: Rakuten Symphony Inc. Дата публикации: 2024-02-29.

Digital twin simulation for transportation

Номер патента: US20230077570A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Atul Mene. Владелец: International Business Machines Corp. Дата публикации: 2023-03-16.

Digital twin computation apparatus, digital twin computation method, program, and data structure

Номер патента: AU2019449128B2. Автор: Hiroyuki Tanaka,Hiroshi Sakai,Yasuhiro Iida,Hiroshi Ogawa,Takao Nakamura,Yukio Koike,Ryutaro Kawamura,Koya MORI,Masayuki Hanadate,Shigekuni KONDO. Владелец: Nippon Telegraph and Telephone Corp. Дата публикации: 2023-09-21.

Host apparatus, heterogeneous system architecture device, and heterogeneous system based on unified virtual memory

Номер патента: US11782835B2. Автор: Joo-hyun Lee,Young-Su Kwon,Jin-Ho HAN. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-10-10.

Advertising system and method based on digital intelligent information sharing using external display of vehicle

Номер патента: US20230259975A1. Автор: Hyo Jeong Koo. Владелец: Individual. Дата публикации: 2023-08-17.

Systems and methods for generating digital twins

Номер патента: US20230385468A1. Автор: Sanjoy Paul,Zaid Tashman,Matthew Kujawinski,Neda Abolhassani. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-11-30.

Monitoring system and method based on digital converter station

Номер патента: US20240153257A1. Автор: Zhou Chen,WEI Jin,Wei Cheng,Ming Li,Xiang Zhang,Qing Wang,Ning Zhao,Siyuan LIU,Haifeng Wang,Hanqing ZHAO,Xiaojun Hou,Chong TONG,Jun Lyu,Xianshan GUO,Yanguo Wang,Zhanguo ZHANG. Владелец: Beijing Sgitg Accenture Information Technology Center Co Ltd. Дата публикации: 2024-05-09.

Adaptive tuning of physics-based digital twins

Номер патента: EP4327226A1. Автор: Joseph TYLKA. Владелец: SIEMENS AG. Дата публикации: 2024-02-28.

Adaptive tuning of physics-based digital twins

Номер патента: US20240160813A1. Автор: Joseph TYLKA. Владелец: SIEMENS AG. Дата публикации: 2024-05-16.

Digital twin computing apparatus, digital twin computing method, program and data structure

Номер патента: US20220253321A1. Автор: Hiroyuki Tanaka,Hiroshi Sakai,Yasuhiro Iida,Hiroshi Ogawa,Takao Nakamura,Yukio Koike,Ryutaro Kawamura,Koya MORI,Masayuki Hanadate,Shigekuni KONDO. Владелец: Nippon Telegraph and Telephone Corp. Дата публикации: 2022-08-11.

Digital twin computation apparatus, digital twin computation method, program, and data structure

Номер патента: AU2019449128A1. Автор: Hiroyuki Tanaka,Hiroshi Sakai,Yasuhiro Iida,Hiroshi Ogawa,Takao Nakamura,Yukio Koike,Ryutaro Kawamura,Koya MORI,Masayuki Hanadate,Shigekuni KONDO. Владелец: Nippon Telegraph and Telephone Corp. Дата публикации: 2022-01-06.

Method for creating a digital twin of an infrastructure component

Номер патента: US20220414862A1. Автор: John Clark,Inderjeet Singh,Mark Strong,Dave Toups. Владелец: STUPP BROS Inc. Дата публикации: 2022-12-29.

Verifying a digital twin of a subject

Номер патента: WO2022268937A1. Автор: Cornelis Petrus Hendriks,Valentina LAVEZZO,Murtaza Bulut,Harm Cronie,Lieke Gertruda Elisabeth Cox. Владелец: KONINKLIJKE PHILIPS N.V.. Дата публикации: 2022-12-29.

Space digital twin device and method

Номер патента: US20240176044A1. Автор: Okchul JUNG,Jaedong SEONG,Youeyun JUNG,Saehan Song,MyeongShin LEE,Daewon CHUNG. Владелец: Korea Aerospace Research Institute KARI. Дата публикации: 2024-05-30.

Self-healing system architecture based on reversible logic

Номер патента: EP3974988A1. Автор: Bappaditya DEY,Syed Muhammad Yasser SHERAZI,Ryan Ryoung Han Kim. Владелец: Interuniversitair Microelektronica Centrum vzw IMEC. Дата публикации: 2022-03-30.

Operations and maintenance systems and methods employing sensor-less digital twins

Номер патента: US12019963B2. Автор: Steven D. Roemerman,Eric Haney. Владелец: Incucomm Inc. Дата публикации: 2024-06-25.

Image processing method and device, training method of neural network, image processing method based on combined neural network model, constructing method of combined neural network model, neural network processor, and storage medium

Номер патента: US20240233074A9. Автор: Pablo NAVARRETE MICHELINI,Dan Zhu,Wenbin Chen,Hanwen Liu. Владелец: BOE Technology Group Co Ltd. Дата публикации: 2024-07-11.

Method for measuring full-field strain of an ultra-high temperature object based on digital image correlation method

Номер патента: US11734815B2. Автор: Zhiwei Pan,Shenghong Huang,Zhifeng Zheng,Menglai Jiang,Meixia Qiao. Владелец: University of Science and Technology of China USTC. Дата публикации: 2023-08-22.

Method for generating a digital twin of a facility

Номер патента: EP4239513A1. Автор: Guillaume Delarue,Shivani Shah,Laurent BOURGOUIN,Nachwa ABOU BAKR,Chayan TOUFAN,Loic LANDRIEU. Владелец: Individual. Дата публикации: 2023-09-06.

A Product Customization Method Based on the Result of Pressure Detection

Номер патента: US20200202406A1. Автор: Yih-Ping Luh. Владелец: Qingyuan Global Technology Services Ltd. Дата публикации: 2020-06-25.

Contrast imaging method based on wide beam and method for extracting perfusion time-intensity curve

Номер патента: US9788815B2. Автор: XUAN Yang,Hui Zhong,Mingxi Wan,Yu Zhai,Diya Wang. Владелец: Xian Jiaotong University. Дата публикации: 2017-10-17.

Joint expression coding system and method based on static and dynamic expression images

Номер патента: US20240212389A1. Автор: Mi Li,Jianhui Chen,Yanbo CHEN,Shengfu Lv. Владелец: BEIJING UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-06-27.

Citation network graph representation learning system and method based on multi-view contrastive learning

Номер патента: ZA202310983B. Автор: Jianping Yin,Hongbo Li,Huiying Xu,Miaomiao LI,Changwang Zhang,Xinzhong ZHU,Wenxuan Tu. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-06-26.

High-precision dynamic real-time 360-degree omnidirectional point cloud acquisition method based on fringe projection

Номер патента: US20240037765A1. Автор: Wei Yin,Yan Hu,QIAN CHEN,Liang Zhang,Kai Liu,Chao Zuo,Mingzhu Xu,Shijie Feng,Tianyang Tao,Jiaming Qian,Shuaijie WU,Jiaye WANG. Владелец: Nanjing University of Science and Technology. Дата публикации: 2024-02-01.

Synchronization system and method based on wireless or limited cable interconnection and mr system

Номер патента: US20190132813A1. Автор: Jing Li,Xin Jiang,Desmond Teck Beng Yeo,Thomas Kwok-Fah Foo,Tingting Song. Владелец: General Electric Co. Дата публикации: 2019-05-02.

Digital twin template iot sensor plugs for faster operational twin setup

Номер патента: US20220197522A1. Автор: Lisa Seacat Deluca,Bjorn Kutz. Владелец: International Business Machines Corp. Дата публикации: 2022-06-23.

A Multi-factor Sponge City Construction and Evaluation Method Based on City Association Analysis

Номер патента: LU500692B1. Автор: Fujie JIANG,Jie Ding,Rui AN,Hongliang SUN,Shanshan Yang,Nanqi REN,Jiwei Pang,Shunwen Bai,Zhaoheng Zhuang. Владелец: Changchun Municipal Engineering Design & Res Institute. Дата публикации: 2022-03-28.

Data placement method based on health scores

Номер патента: US20210374013A1. Автор: Bing Liu,Parmeshwr Prasad,Rahul Deo Vishwakarma. Владелец: EMC IP Holding Co LLC. Дата публикации: 2021-12-02.

Three-dimensional co-prime cubic array direction-of-arrival estimation method based on a cross-correlation tensor

Номер патента: US20230055481A1. Автор: Yong Wang,Jiming Chen,Hang Zheng,Chengwei ZHOU,ZhiGuo Shi. Владелец: Zhejiang University ZJU. Дата публикации: 2023-02-23.

Optimization and digital twin of chromatography purification process using physics-informed neural networks

Номер патента: US20230359888A1. Автор: Yan Qin,Sanjoy Paul,Jurgen Albert Weichenberger,Mohamad Mehdi NASR-AZADANI,Omer Tanay TOPAC. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-11-09.

Image processing method and apparatus based on contrast-enhanced ultrasound images

Номер патента: US20220296216A1. Автор: Jue Zhang,Jingyi YIN. Владелец: Nanjing Transcend Vivoscope Bio Technology Co Ltd. Дата публикации: 2022-09-22.

Radar echo extrapolation method based on cross tracking method and spatial filtering

Номер патента: NL2030904B1. Автор: WU Shanshan,ZOU Haibo,Shan Jiusheng. Владелец: Meteorological Sciences Inst Of Jiangxi Province. Дата публикации: 2023-01-06.

Pollution emission determination method and apparatus based on digital watershed space-time model

Номер патента: US20240232456A1. Автор: Chen Zhao,Cao Liu,Wei Li,Hua Jiang,Xiaolin Hou,Xiaoguang Li,Guowen Li,Haisheng LI,Jiaqian Li,Caole LI,Lieyu Zhang,Jianglong CUI,Wensi Wang. Владелец: CHINESE RESEARCH ACADEMY OF ENVIRONMENTAL SCIENCES. Дата публикации: 2024-07-11.

Unit testing method based on automatic generation of path coverage test cases

Номер патента: US11720477B2. Автор: Han Huang,Zhifeng Hao,Muming LIAN,Fangqing LIU,Zhongming YANG. Владелец: South China University of Technology SCUT. Дата публикации: 2023-08-08.

Earthquake evaluation method based on multi-type geophysical data

Номер патента: US11360225B1. Автор: Qingyun DI,Yongyou YANG,Wenxiu ZHANG,Zhongxing WANG,Fei Tian,Wenhao Zheng,Renzhong PEI. Владелец: Institute of Geology and Geophysics of CAS. Дата публикации: 2022-06-14.

Big data processing method based on direct computation of compressed data

Номер патента: US11755539B2. Автор: Feng Zhang,Xiaoyong Du. Владелец: RENMIN UNIVERSITY OF CHINA. Дата публикации: 2023-09-12.

Exploration method based on reward decomposition in multi-agent reinforcement learning

Номер патента: US20240256885A1. Автор: Hyun Woo Kim,Ran HAN,Sungwon Yi,Euisok Chung,Jeongmin YANG,Hwajeon SONG,Byunghyun YOO. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-08-01.

Method for generating data indicative of a digital twin

Номер патента: EP4383145A1. Автор: Roman Orus,Rodrigo Hernandez. Владелец: Multiverse Computing SL. Дата публикации: 2024-06-12.

Bus decode and triggering on digital down converted data in a test and measurement instrument

Номер патента: US20200233827A1. Автор: Gary J. Waldo,James D. Alley. Владелец: Tektronix Inc. Дата публикации: 2020-07-23.

Digital twin of lung that is calibrated and updated with mechanical ventilator data and bed-side imaging information for safe mechanical ventilation

Номер патента: EP4409590A1. Автор: Thomas Koehler,Cornelis Petrus Hendriks,Rafael Wiemker,Rita PRIORI,Joerg Sabczynski,Roberto BUIZZA,Jaap Roger Haartsen,Michael Polkey. Владелец: Koninklijke Philips NV. Дата публикации: 2024-08-07.

Systems and Methods for Measurement Integration and Accurate Digital Twin Creation

Номер патента: US20240302516A1. Автор: Ahmed Sallam Mohamed Ibrahim,Ahmed Magdy Mohamed Mohamed Aransa. Владелец: Locationdas Inc. Дата публикации: 2024-09-12.

Sunny and rainy area division method based on time division long-term evolution network

Номер патента: GB2626465A. Автор: LIU Lei,Liu Xichuan,Gao Taichang,Zhao Shijun,Pu Kang. Владелец: NATIONAL UNIVERSITY OF DEFENSE TECHNOLOGY. Дата публикации: 2024-07-24.

An Analysis Method of Air Traffic Operation Risk Situation Evolution Based on the complex network

Номер патента: LU502894B1. Автор: Lei Yang,HAO LIU,Honghai Zhang,Wenying Lv,Junqiang Wan. Владелец: Univ Nanjing Aeronautics & Astronautics. Дата публикации: 2024-04-12.

Dynamic display method and apparatus based on operating body, storage medium and electronic device

Номер патента: US12124677B2. Автор: LIANG Xu,Shaopeng LI,Junkai SUN,Jizhou LONG. Владелец: Beijing Horizon Robotics Technology Research and Development Co Ltd. Дата публикации: 2024-10-22.

Pavement anti-skid performance evaluation method and device based on envelope feature

Номер патента: US12031277B2. Автор: Rui Li,Zhe HU,Jiupeng ZHANG,Guojing HUANG,Fucheng GUO,Zhenxing Niu,Yinzhang HE,Jianzhong PEI. Владелец: Changan University. Дата публикации: 2024-07-09.

Video image denoising and enhancing method and device based on random spray retinex

Номер патента: US09978131B2. Автор: Guopeng Zhang,Hai Liu,Deqiang CHENG,Leida LI,Xingge GUO. Владелец: China University of Mining and Technology CUMT. Дата публикации: 2018-05-22.

User intention analysis apparatus and method based on image information of three-dimensional space

Номер патента: US09886623B2. Автор: Jin Woo Kim. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2018-02-06.

Method of searching objects on digital images

Номер патента: RU2718172C1. Автор: Андрей Витальевич Богословский,Ирина Викторовна Жигулина,Андрей Владиславович Пономарев,Александр Евгеньевич Бальжак. Владелец: Федеральное государственное казенное военное образовательное учреждение высшего образования "Военный учебно-научный центр Военно-воздушных сил "Военно-воздушная академия имени профессора Н.Е. Жуковского и Ю.А. Гагарина" (г. Воронеж) Министерства обороны Российской Федерации. Дата публикации: 2020-03-30.

System architecture and method of the network security provision

Номер патента: RU2656813C2. Автор: Чжи ЮЙ. Владелец: Чжи ЮЙ. Дата публикации: 2018-06-06.

Terminal and reading method based on a terminal

Номер патента: RU2602781C2. Автор: Лэй Чэнь,Лян ЦЗЭН,Мин ХЭ. Владелец: Тенсент Текнолоджи (Шэньчжэнь) Компани Лимитед. Дата публикации: 2016-11-20.

Passive payments system and method based on location determination

Номер патента: RU2718974C2. Автор: Томас АННИК,Роман ОБЕРЛИ,Саймон ДЖЕЛИНАС,Райан ВИЛИМ,Дэвид ФОЛИ. Владелец: Аксон Вайб Аг. Дата публикации: 2020-04-15.

Motion compensation systems and methods based on player input

Номер патента: RU2729705C2. Автор: Майкл КОПЬЕЦ. Владелец: Зенимакс Медиа Инк.. Дата публикации: 2020-08-11.

Data decoding method based on ldpc code

Номер патента: RU2747050C1. Автор: Алексей Юрьевич Кравцов. Владелец: Акционерное Общество "Крафтвэй Корпорэйшн Плс". Дата публикации: 2021-04-23.

A method and a digital twin for determining an influence on an expected performance of a heavy-duty vehicle by enabling one or more add-on features

Номер патента: EP4250197A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-09-27.

Commerce-based shopping experience with digital twin simulation infusion

Номер патента: US20230298083A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Christian Compton,Tanner Mark Preiss. Владелец: International Business Machines Corp. Дата публикации: 2023-09-21.

Individualized telemetry processing leveraging digital twins property(ies) and topological metadata

Номер патента: US11841882B2. Автор: David John Brennan,Hubert Van Hoof,Grégory Christopher John VANDENBROUCK,Daniel Escapa,Alina Mihaela STANCIU,Andres Carlo Petralli,Stefan Krzysztof GAWRYS,Patrick James GORMAN. Владелец: Microsoft Technology Licensing LLC. Дата публикации: 2023-12-12.

Digital twin for predicting performance outcomes

Номер патента: US11721437B2. Автор: Kase J. Saylor,Daniel P. Nicolella,Mark J. Libardoni. Владелец: Southwest Research Institute SwRI. Дата публикации: 2023-08-08.

Method and system for protecting intellectual property rights on digital content using smart propertization

Номер патента: US11816649B2. Автор: Chul Soo Kim,Jinhong Yang,Nam Yong Lee. Владелец: Industry Academic Cooperation Foundation of Inje University. Дата публикации: 2023-11-14.

Data model based simulation utilizing digital twin replicas

Номер патента: US20230161934A1. Автор: Sameep Mehta,Pranay Kumar Lohia,Soma Shekar Naganna,Balaji Ganesan,Priyanka Telang. Владелец: International Business Machines Corp. Дата публикации: 2023-05-25.

Techniques for generating one or more scores and/or one or more corrections for a digital twin representing a utility network

Номер патента: US20230069866A1. Автор: Alfredo Contreras,Mike Carlisle. Владелец: Bentley Systems Inc. Дата публикации: 2023-03-09.

Evacuation using digital twins

Номер патента: US11747145B2. Автор: Sarbajit K. Rakshit,Subha Kiran Patnaikuni. Владелец: International Business Machines Corp. Дата публикации: 2023-09-05.

Dynamically mapping entity members to permission roles for digital survey resources based on digital metadata

Номер патента: US11973802B2. Автор: Suarabh Sehgal,Pranip Borah. Владелец: Qualtrics LLC. Дата публикации: 2024-04-30.

Systems and methods to generate a composite representation of a digital wallet based on digital assets indicated by the digital wallet

Номер патента: US20240013196A1. Автор: Alif Khalfan,Malcolm E. Murdock,Brianna Cochran,Zachary Shalett,Benjamin Lopez Barba. Владелец: Disney Enterprises Inc. Дата публикации: 2024-01-11.

Techniques for generating one or more scores and/or one or more corrections for a digital twin representing a utility network

Номер патента: US11822862B2. Автор: Alfredo Contreras,Mike Carlisle. Владелец: Bentley Systems Inc. Дата публикации: 2023-11-21.

Method and system for restoring consistency of a digital twin database

Номер патента: EP4361847A1. Автор: Mark Buckley,Rakebul Hasan,Martin Ringsquandl,Johannes Maderspacher. Владелец: SIEMENS AG. Дата публикации: 2024-05-01.

Model providing assistance system and model providing assistance method for using digital twin simulation

Номер патента: US20240111930A1. Автор: Keiro Muro,Alexander Adam LAURENCE,Daiwa SATOH. Владелец: HITACHI LTD. Дата публикации: 2024-04-04.

Digital twin simulation based key performance indicator selection

Номер патента: US20230274049A1. Автор: Sarbajit K. Rakshit,Saraswathi Sailaja Perumalla,Randhir Singh,Trinadh Raja. Владелец: International Business Machines Corp. Дата публикации: 2023-08-31.

Method and a digital twin for determining an influence on an expected performance of a heavy-duty vehicle by enabling one or more add-on features

Номер патента: US20230306155A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-09-28.

Verifying a user based on digital fingerprint signals derived from out-of-band data

Номер патента: US20200021582A1. Автор: Wendell Brown,Evan Tann. Владелец: Averon US Inc. Дата публикации: 2020-01-16.

Care village digital twin system and method

Номер патента: US20240177853A1. Автор: Peter Williams,Rafael Saavedra,Chia-Lin Simmons. Владелец: Logicmark Inc. Дата публикации: 2024-05-30.

Systems and methods for machine learning (ml) model diagnostic assessments based on digital pathology data

Номер патента: EP4341964A1. Автор: Michael Montalto,Aditya Khosla,Andrew Hanno BECK,Benjamin Glass,Surya Teja Chavali,Syed Ashar Javed,Shamira Sridharan Weaver,Murray Resnick,Ilan Wapinski. Владелец: Pathai Inc. Дата публикации: 2024-03-27.

Method for generating a digital twin of a facility

Номер патента: WO2023166175A1. Автор: Guillaume Delarue,Shivani Shah,Laurent BOURGOUIN,Nachwa ABOU BAKR,Chayan TOUFAN,Loic LANDRIEU. Владелец: Samp. Дата публикации: 2023-09-07.

Classification-based product design using virtual digital twin models

Номер патента: US20240211659A1. Автор: Sathya Santhar,Sarbajit K. Rakshit,Sridevi Kannan. Владелец: International Business Machines Corp. Дата публикации: 2024-06-27.

Hybrid digital twin simulation

Номер патента: US20240220677A1. Автор: Sarbajit K. Rakshit. Владелец: International Business Machines Corp. Дата публикации: 2024-07-04.

Progressive video streaming apparatus and method based on visual perception

Номер патента: US20130156407A1. Автор: Joo Myoung Seok,Ji Hun Cha. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2013-06-20.

System, architecture and method for secure encryption and decryption

Номер патента: US20130086391A1. Автор: Robert Frank KLEINER,Frederik Sebastian KLEINER. Владелец: Individual. Дата публикации: 2013-04-04.

In-air gesture control method based on visible light signals

Номер патента: US11886647B2. Автор: Fan Wu,Guihai Chen,Zimo LIAO. Владелец: Shanghai Jiaotong University. Дата публикации: 2024-01-30.

In-air gesture control method based on visible light signals

Номер патента: US20230096340A1. Автор: Fan Wu,Guihai Chen,Zimo LIAO. Владелец: Shanghai Jiaotong University. Дата публикации: 2023-03-30.

Energy-efficient point cloud feature extraction method based on field-programmable gate array (fpga) and application thereof

Номер патента: US20240127466A1. Автор: HAO SUN,Yajun Ha. Владелец: ShanghaiTech University. Дата публикации: 2024-04-18.

System architecture for dynamically rendering a customized user interface on a mobile device

Номер патента: US20240235956A1. Автор: Anand Vaidyanathan,Suraj Powar,Kalyan Narasimhan,Saleem Faneeband. Владелец: PayPal, Inc.. Дата публикации: 2024-07-11.

Increasing data accessibility across system architecture environments

Номер патента: US20200142813A1. Автор: Horst F. Schaude. Владелец: SAP SE. Дата публикации: 2020-05-07.

Innovative rural tourism efficiency evaluation method based on fuzzy comprehensive evaluation

Номер патента: NL2031090B1. Автор: Xu Bo,Zhou Xinbo,Liu Lihua,LU Xiaoling,GAO Biao,Wu Yichao,Cui Hongyan,Nimer Abukhalifeh Alaa. Владелец: Baicheng Teachers College. Дата публикации: 2023-09-07.

Hand-eye calibration method based on three-dimensional point cloud of calibration plate

Номер патента: US20240212210A1. Автор: Jian Gao,Xin Chen,Zhenyu Zheng,Lanyu Zhang,Zhuojun Zheng,Haixiang DENG. Владелец: GUANGDONG UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-06-27.

Motion capture method based on unsynchorized videos

Номер патента: US20230267621A1. Автор: Xiaowei Zhou,Hujun Bao,Junting DONG,Qing SHUAI. Владелец: Zhejiang University ZJU. Дата публикации: 2023-08-24.

Three-dimensional convolution operation device and method based on three-dimensional phase change memory

Номер патента: US20220351026A1. Автор: Hao Tong,Qing Hu,Xiangshui Miao,Yuhui He. Владелец: HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY. Дата публикации: 2022-11-03.

Vehicle fault reasoning method based on knowledge graph

Номер патента: US20240078444A1. Автор: Yuanyuan Li,Zhijun Fang,Yongbin Gao,Weibing Wan. Владелец: Shanghai University of Engineering Science. Дата публикации: 2024-03-07.

Digital twin for green ammonia facility using a low carbon energy source and related methods of use

Номер патента: WO2024112614A2. Автор: Paolo Brunengo,Rafał Bernat,Zhentao Feng,Ekaterini Yamalidou,Satish Bantwai BALIGA. Владелец: Kellogg Brown & Root LLC. Дата публикации: 2024-05-30.

Direct current (DC)/DC converter fault diagnosis method and system based on improved sparrow search algorithm

Номер патента: US11853898B1. Автор: Xiao Wang,Yigang HE,Xiaoyu Liu,Yingying Zhao,Zhikai Xing. Владелец: Wuhan University WHU. Дата публикации: 2023-12-26.

Underwater Small Target Detection Method Based on an Improved SSD Model

Номер патента: LU503259B1. Автор: Junhua Chen,Fanchang Yang,Xuewen Tan,Lidong Huang. Владелец: Univ Yunnan Minzu. Дата публикации: 2023-06-27.

Semi-supervised sign language production method based on dual transformation and system and storage medium thereof

Номер патента: LU502694B1. Автор: Zhou Zhao,Junjie Huang,Zheqian Chen,Wencan Huang,Weihao Jiang. Владелец: Hangzhou Yiwise Intelligent Tech Co Ltd. Дата публикации: 2023-02-23.

Biosecure digital twin for cyber-physical anomaly detection and biological process modeling

Номер патента: WO2024077271A3. Автор: William J. Reid,Sri Nikhil Gupta Gourisetti,Ethan Samuel BOSSANGE,Andrew Frank GRUBE,Michael MYLREA,Ahsan MUNIR,Rui WHEATON. Владелец: National Resilience, Inc.. Дата публикации: 2024-05-16.

System architectures for big data processing

Номер патента: US20230116967A1. Автор: Jing Li,Jialiang Zhang. Владелец: University of Pennsylvania Penn. Дата публикации: 2023-04-20.

System and method for providing content-related information based on digital watermark and fingerprint

Номер патента: US20150117700A1. Автор: Il-Gu Jung,Won Ryu,Seng-Kyoun Jo,Dong-Hyuck IM. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2015-04-30.

Simultaneous electrocardiogram generation method based on 2-lead non-simultaneous electrocardiograms

Номер патента: EP4371486A1. Автор: Joon Myoung Kwon. Владелец: Medical AI Co Ltd. Дата публикации: 2024-05-22.

Oil tank measurement method and system based on laser point cloud analysis

Номер патента: NL2028854A. Автор: LI Cunjun,HAO Huadong,CHEN Xianlei,REN Feiming,SHI Haolei,WU Zenan. Владелец: Zhoushan Institute Of Calibration And Testing For Quality And Tech Supervision. Дата публикации: 2021-09-16.

Array antenna bandwidth enhancement method based on phase regulation and control, apparatus and array antenna

Номер патента: US20240088571A1. Автор: Xiaojuan WANG,Junhong Wang,Yujian Li,Fanqi Sun. Владелец: Beijing Jiaotong University. Дата публикации: 2024-03-14.

Medical data management using digital twins

Номер патента: WO2024052246A1. Автор: Mark Thomas Johnson,Murtaza Bulut,Ralf Dieter HOFFMANN,Wilbert Hendrik BOUWMAN,Ulrich Wolfgang KATSCHER. Владелец: KONINKLIJKE PHILIPS N.V.. Дата публикации: 2024-03-14.

Spectral clustering method and system based on unified anchor and subspace learning

Номер патента: ZA202310982B. Автор: Jianping Yin,Jianmin Zhao,Hongbo Li,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Wenxuan Tu,Mengjing SUN. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-06-26.

Online content registration and transaction method based on active selection by user, and system for same

Номер патента: EP4109380A1. Автор: Seok Hwan Kim. Владелец: Individual. Дата публикации: 2022-12-28.

Spatial identification method for urban deprivation by convolutional neural network (cnn) based on street view images

Номер патента: NL2033013B1. Автор: Liu Ye,Yuan Yuan. Владелец: Univ Sun Yat Sen. Дата публикации: 2024-03-22.

Complex industrial image edge extraction method based on artificial intelligence and complex industrial image edge extraction device thereof

Номер патента: US20240177322A1. Автор: Cunli Duan,Qihang Zhu. Владелец: GOOD VISION PRECISION INSTRUMENT Co Ltd. Дата публикации: 2024-05-30.

Progressive video streaming apparatus and method based on visual perception

Номер патента: US8914817B2. Автор: Joo Myoung Seok,Ji Hun Cha. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2014-12-16.

Extended reality system and extended reality method with two-way digital interactive digital twins

Номер патента: US11776206B1. Автор: Daniel Chantal Mills,Neetika Gupta,Srinivas Krishna,Laura Thomas,Naimul Mefraz Khan. Владелец: Awe Co Ltd. Дата публикации: 2023-10-03.

Method for constructing zenith troposphere delay database based on era-5

Номер патента: NL2032589B1. Автор: Tian Bin,SUN Lidong,CHEN Zihao,FU Bing,Lu Faxing,cha Hao. Владелец: Naval University Eng Pla. Дата публикации: 2023-06-28.

Conversational digital twin method using geographic information and apparatus thereof

Номер патента: US20240211205A1. Автор: Woontack Woo,Seung Youb SSIN. Владелец: Korea Advanced Institute of Science and Technology KAIST. Дата публикации: 2024-06-27.

Group-buying pricing method based on purchase quantity

Номер патента: AU2020101107A4. Автор: Yu Xia,Xu Liu,Yi Jiang,Junwu Zhu. Владелец: Yangzhou University. Дата публикации: 2020-07-30.

Music searching methods based on human perception

Номер патента: US20130191088A1. Автор: David Waller,Navdeep S. Dhillon,Maxwell J. Wells. Владелец: Gracenote Inc. Дата публикации: 2013-07-25.

Information read/write method and apparatus based on blockchain

Номер патента: US20210209061A1. Автор: Duofeng Hu. Владелец: Advanced New Technologies Co Ltd. Дата публикации: 2021-07-08.

Vacuum-helium-leak-detection method based on carbon-nanotube-based field-emission sensor

Номер патента: US20230213407A1. Автор: Jie Wang,Changkun Dong,Ruizi Liu. Владелец: Wenzhou University. Дата публикации: 2023-07-06.

Digital twin of atria fibrillation patients

Номер патента: EP4415643A1. Автор: Yariv Avraham Amos,Liat Tsoref,Matityahu Amit. Владелец: Biosense Webster Israel Ltd. Дата публикации: 2024-08-21.

Reconstructing a secondary differential value image, image contour emphasizing based on the reconstructing, and thermal transfer recording based on the contour emphasizing

Номер патента: US6268933B1. Автор: Tal-Guk Kim. Владелец: Alps Electric Co Ltd. Дата публикации: 2001-07-31.

Enhancing online contents based on digital alliance data

Номер патента: US12058093B2. Автор: Ray ZHOU,Shubham Goel,Hansen Qian,Bobby Zhang,Craig Dabney,Gabriel Fan,Andrew Luo. Владелец: Project Affinity Inc. Дата публикации: 2024-08-06.

Chip security analysis method based on petri net

Номер патента: US20220083655A1. Автор: Zili Wang,Cheng GAO,Daming Yang,Jiaoying Huang,Chengcheng Fu. Владелец: BEIHANG UNIVERSITY. Дата публикации: 2022-03-17.

Single image dehazing method based on detail recovery

Номер патента: US20240289928A1. Автор: Ying Zhang,YU Qiu,Yingying Feng,Dengyin Zhang. Владелец: NANJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. Дата публикации: 2024-08-29.

Efficient near-field communication based on audio signals

Номер патента: US20210083786A1. Автор: Hubertus Maschek,Thoralf Nehls,Peter Wacherbauer. Владелец: Sonobeacon GmbH. Дата публикации: 2021-03-18.

Optical pulse design method for high-fidelity manipulation over ensemble qubits

Номер патента: US20230025745A1. Автор: Ying Yan,LIN Wan,Jiayi Wang,Tianfeng Chen,Ze MO. Владелец: SUZHOU UNIVERSITY. Дата публикации: 2023-01-26.

Heart rate activity detecting system based on dynamic images and method thereof

Номер патента: US20180182095A1. Автор: rong-rong Chen,Ming-Chieh Tsai,Yi-Fei Luo,Tsung-Hua LI. Владелец: Industrial Technology Research Institute ITRI. Дата публикации: 2018-06-28.

A digital twin system for solar power plants and method thereof

Номер патента: WO2024171209A1. Автор: Kumaraswamy Reddy Muvva,Umamaheswara Rao Theru. Владелец: Kumaraswamy Reddy Muvva. Дата публикации: 2024-08-22.

System architecture for dynamically rendering a customized user interface on a mobile device

Номер патента: US20220086058A1. Автор: Anand Vaidyanathan,Suraj Powar,Kalyan Narasimhan,Saleem Faneeband. Владелец: PayPal Inc. Дата публикации: 2022-03-17.

Display drive method based on frame data, electronic device, and storage medium

Номер патента: US20240290241A1. Автор: PENG Wang,Yue DING,Yanling Liu,Yanfeng JIA,Jiehua TANG. Владелец: Honor Device Co Ltd. Дата публикации: 2024-08-29.

Text recognition method and apparatus based on hand interaction for ar glasses

Номер патента: US20240242407A1. Автор: Yong-Ho Lee,Jong-bae Lee,Wook-Ho Son,Beom-Ryeol LEE,Jeung-Chul Park. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-07-18.

Global registration method based on spherical harmonic transformation (sht) and iterative optimization

Номер патента: US20240212175A1. Автор: Yajun Ha,Chengzhang HE. Владелец: ShanghaiTech University. Дата публикации: 2024-06-27.

Automated generation and evaluation of architectural designs

Номер патента: US20190065633A1. Автор: David Benjamin,Danil Nagy,James Stoddart,Lorenzo Villaggi. Владелец: Autodesk Inc. Дата публикации: 2019-02-28.

Microplastic detection device and method based on pyrolysis-mass spectrometry technology

Номер патента: US11913863B2. Автор: NA Li,Jing Gao,Jie Jiang,Xiangnan Zhang,Hengnan Zhang. Владелец: Harbin Institute of Technology Weihai. Дата публикации: 2024-02-27.

Delay library generation apparatus and method based on wiring arrangements

Номер патента: US8499267B2. Автор: Toru Awashima,Yoshitaka Izawa. Владелец: NEC Corp. Дата публикации: 2013-07-30.

System and method for training agent based on transfer training

Номер патента: US20240220857A1. Автор: Sang Yeoun Lee,Sooyoung Jang,Ji Hun JEON. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-07-04.

Method for generating data indicative of a digital twin

Номер патента: US20240193459A1. Автор: Roman Orus,Rodrigo Hernandez. Владелец: Multiverse Computing SL. Дата публикации: 2024-06-13.

Kinship verification method based on generalized multi-view graph embedding

Номер патента: US20240021017A1. Автор: Jiye Liang,Jianqing LIANG. Владелец: SHANXI UNIVERSITY. Дата публикации: 2024-01-18.

Lighting method and apparatus based on AMD platform, device and readable medium

Номер патента: US12093120B2. Автор: Wu Jhih Sie. Владелец: Shandong Yingxin Computer Technology Co Ltd. Дата публикации: 2024-09-17.

Anti-counterfeiting method and system based on multiple layers of identification codes, and identification method based on multiple layers of identification codes

Номер патента: EP4435666A1. Автор: Haimei SONG. Владелец: Individual. Дата публикации: 2024-09-25.

Digital twin and artificial intelligence (ai) models for personalization and management of breathing assistance

Номер патента: WO2024192512A1. Автор: Hamed Hanafialamdari,Gregory Eric Avard BEGIN,Joel LIEDERMAN,Scott Corren LOWE,Guillermo Aristi SUAREZ,Brendan Ian Liam BRADY,Sarah Elizabeth REEVE,Meagan Mackenzie SINCLAIR,Seyedehnajmeh SADATNEJAD,Kazi Antor HASAN,Rajwant Singh SODHI. Владелец: Novaresp Technologies Inc.. Дата публикации: 2024-09-26.

Motion object video on film detection and adaptive de-interlace method based on fuzzy logic

Номер патента: US7515204B1. Автор: Lei He,Hongmin Zhang. Владелец: Pixelworks Inc. Дата публикации: 2009-04-07.

Target digital twin model generation system, control system for robot, virtual shop generation system, target digital twin model generation method, control method for robot, and virtual shop generation method

Номер патента: EP4422189A1. Автор: Ken Kutaragi. Владелец: Ascent Robotics Inc. Дата публикации: 2024-08-28.

Visiting position prediction method based on user travel mode

Номер патента: AU2021104609A4. Автор: Liyan Zhang,Zhenzhou LI,Rui WEN,Wanmin ZHAO. Владелец: YIDATEC CO Ltd. Дата публикации: 2021-09-23.

Process proximity correction method based on machine learning, optical proximity correction method including the same, and method of manufacturing mask by using the process proximity correction method

Номер патента: US20240319580A1. Автор: Jaeyong Jeong,Sooyong Lee,Bonhyun Gu. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2024-09-26.

Systems and methods for measurement integration and accurate digital twin creation

Номер патента: WO2024187157A1. Автор: Ahmed Sallam Mohamed Ibrahim,Ahmed Magdy Mohamed Mohamed Aransa. Владелец: Locationdas Inc.. Дата публикации: 2024-09-12.

A short-term irradiance forecasting method based on transformer

Номер патента: LU505762B1. Автор: Gang Li,YU Aihua,Zhiwen CAO,Shujie YANG,Minyu Huang,Favour Chinelo ANEKWE,Beiping Hou,Qinlong Zhang,Guangxin Zhu. Владелец: Zhejiang Univ Of Science And Technology Zhejiang Sino German Science And Technology Promotion Center. Дата публикации: 2024-06-13.

Thermal hydraulic equipment digital twin for operation optimization and predictive maintenance

Номер патента: US20240346208A1. Автор: Cesare Frepoli,Michael G. Mankosa. Владелец: Individual. Дата публикации: 2024-10-17.

Method and system of risk prevention based on energy of natural gas in a full cycle

Номер патента: US12117328B2. Автор: Bin Liu,Zehua Shao,Haitang XIANG. Владелец: Chengdu Qinchuan IoT Technology Co Ltd. Дата публикации: 2024-10-15.

Hearing state prediction apparatus and method based on diffusion tensor image

Номер патента: US20240354941A1. Автор: QIAN CHEN,JIA Li,Wenbo Yang,Jing Sun,Yawen Liu,Han LV,Zhenchang Wang,Ruowei Tang,Pengling REN,Linkun CAI,Xinghao WANG. Владелец: Beijing Friendship Hospital. Дата публикации: 2024-10-24.

Place recognition method based on knowledge graph inference

Номер патента: US12099806B2. Автор: Pei Li,Xinde Li,Changyin Sun. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2024-09-24.

Three-axis optical image stabilization system, method and apparatus based on image sensor displacement

Номер патента: EP4387217A1. Автор: Wei Wang,Shixin Qin,Yingyong HE,Weichih LIN,Changfu HUANG. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2024-06-19.

Environment management system and environment management method based on geofence

Номер патента: EP4451201A1. Автор: Chan Hyuk Chyun. Владелец: Cesco Co Ltd. Дата публикации: 2024-10-23.

Speech extraction method, system, and device based on supervised learning auditory attention

Номер патента: US20200402526A1. Автор: Bo Xu,Jiaming XU,Yating HUANG. Владелец: Institute of Automation of Chinese Academy of Science. Дата публикации: 2020-12-24.

System and method for monitoring data processing system performance using a digital twin

Номер патента: US20240362144A1. Автор: Tomer Kushnir,Maxim Balin,Ofir Ezrielev. Владелец: Dell Products LP. Дата публикации: 2024-10-31.

Data source curation and selection for training digital twin models

Номер патента: US20240330544A1. Автор: Said Tabet,Robert A. Lincourt, JR.,Judith A. Furlong,Aidan O Mahony. Владелец: Dell Products LP. Дата публикации: 2024-10-03.

System architecture for fraud detection

Номер патента: US12126761B2. Автор: James DelloStritto,Joshua Tindal Gray,Ryan Thomas Schneider,Wade Walker Ezell,Ajay Pandit. Владелец: Verint Americas Inc. Дата публикации: 2024-10-22.

Self-adaptive horizontal attitude measurement method based on motion state monitoring

Номер патента: US12061086B2. Автор: QIAN LI,Yifan Zhou,Lei Wu,Yuxin Zhao,Jiancheng Wang,Shuaiyang LI,Yueyang Ben,Guangtao Zhou,Xinle Zang,Tingxiao Wei. Владелец: Harbin Engineering University. Дата публикации: 2024-08-13.

Group division method based on social relationship in combination with selfish preference order

Номер патента: US12033223B2. Автор: Haiyan Wang,Yicheng Yang,Chenyi WANG,Zhousheng WANG. Владелец: NANJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. Дата публикации: 2024-07-09.

Anchor-free object detection method based on ultraviolet image, storage medium and electrical equipment

Номер патента: US12125266B1. Автор: JIANG Liu,Wei Zhao,Qian Wang,Yi Shi,Jun Wu,Yong Du,Song XIE,Shenli Wang. Владелец: State Grid Hubei Extra High Voltage Co. Дата публикации: 2024-10-22.

Itrf transformation method based on conformal geometric algebra

Номер патента: LU500509B1. Автор: Yun Wang,Hong Gao,Jiyi Zhang,Wen Luo,Lingling Sun,Zhaoyuan YU,Linwang YUAN,Zhenjun YAN. Владелец: NANJING UNIVERSITY OF TECHNOLOGY. Дата публикации: 2022-02-07.

Four-dimensional code, image identification system and image identification method based on the four-dimensional code, and retrieval system and retrieval method

Номер патента: US09898657B2. Автор: Ming Cui,Wensheng Tian. Владелец: Individual. Дата публикации: 2018-02-20.

Three-dimensional tooth restoration design device, three-dimensional tooth restoration design method and machine-readable data medium

Номер патента: RU2715278C2. Автор: Поль-Анри ВАЛЛОТТОН,ЛИРДЕ Карл ВАН,Верле ПАТТИЙН. Владелец: Дентсплай Имплантс НВ. Дата публикации: 2020-02-26.

Software analysis method based on absence of undeclared functionalities

Номер патента: RU2711041C1. Автор: Василий Александрович Краснов,Максим Игоревич Поддубный,Сергей Владимирович Бобров,Алексей Юрьевич Болотов,Сергей Евгеньевич Кондаков. Владелец: федеральное государственное казенное военное образовательное учреждение высшего образования "Краснодарское высшее военное училище имени генерала армии С.М. Штеменко" Министерства обороны Российской Федерации. Дата публикации: 2020-01-14.

Ultra-short baseline underwater acoustic positioning system for simulation based on digitized models and debugging method

Номер патента: LU502225B1. Автор: Yunzhou Li,Zhongqiu WANG,Juncheng Wang,Dongming Wang,Suiping Qi. Владелец: Inst Oceanographic Instr Shandong Academy Of Sciences. Дата публикации: 2023-12-08.

Transfer learning in digital twins

Номер патента: WO2024025450A1. Автор: Konstantinos Vandikas,Athanasios KARAPANTELAKIS,Abdulrahman Alabbasi,Ajay Kattepur. Владелец: Telefonaktiebolaget lM Ericsson (publ). Дата публикации: 2024-02-01.

Context aware optimized digital twin model creation

Номер патента: US20230418992A1. Автор: Sarbajit K. Rakshit,Akash U. Dhoot,Shailendra Moyal,Nitika Sharma. Владелец: International Business Machines Corp. Дата публикации: 2023-12-28.

Systems and methods for maintaining video quality using digital twin synthesis

Номер патента: US20240022489A1. Автор: Johan KÖLHI,Anthony Friede. Владелец: Rovi Guides Inc. Дата публикации: 2024-01-18.

Dynamic digital image compression based on digital image characteristics

Номер патента: US20180027250A1. Автор: Evan K. Fram. Владелец: DR Systems Inc. Дата публикации: 2018-01-25.

Sustainable digital twin system

Номер патента: US11900296B1. Автор: David Reinhart,Mandy Lin,Martin Stook. Владелец: Visionaize Inc. Дата публикации: 2024-02-13.

A digital twin and a method for modelling connectivity of a heavy-duty vehicle

Номер патента: EP4250777A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-09-27.

Method of automating marketing on digital channels

Номер патента: WO2008070834A9. Автор: William Schaefer,Brad Smallwood,Christopher Raniere. Владелец: Revcube Media Inc. Дата публикации: 2009-07-09.

Systems and methods for maintaining video quality using digital twin synthesis

Номер патента: US11962482B2. Автор: Johan KÖLHI,Anthony Friede. Владелец: Rovi Guides Inc. Дата публикации: 2024-04-16.

System and method of generating data for populating or updating accounting databases based on digitized accounting source documents

Номер патента: US20240078239A1. Автор: Ling Sun,Yang MI. Владелец: Mscpw Corp. Дата публикации: 2024-03-07.

Digital Photolithography Method for Fiber Optic Device Based on Digital Micromirror Device Combination

Номер патента: US20200348590A1. Автор: Zhimin Zhang,Luming Wang,Ningning LUO. Владелец: NANCHANG HANGKONG UNIVERSITY. Дата публикации: 2020-11-05.

Digital twin sequential and temporal learning and explaining

Номер патента: WO2023129164A1. Автор: Wei Lin,Yongqiang Zhang. Владелец: Hitachi Vantara LLC. Дата публикации: 2023-07-06.

Digital twin management in iot systems

Номер патента: US20190354922A1. Автор: Lisa Seacat Deluca,Joseph G. Berti. Владелец: International Business Machines Corp. Дата публикации: 2019-11-21.

Baseboard management controller to perform security action based on digital signature comparison in response to trigger

Номер патента: US11995182B2. Автор: Suhas Shivanna. Владелец: HEWLETT PACKARD ENTERPRISE DEVELOPMENT LP. Дата публикации: 2024-05-28.

Method and system for restoring consistency of a digital twin database

Номер патента: US20240143623A1. Автор: Mark Buckley,Rakebul Hasan,Martin Ringsquandl,Johannes Maderspacher. Владелец: SIEMENS AG. Дата публикации: 2024-05-02.

Digital twin and a method for modelling connectivity of a heavy-duty vehicle

Номер патента: US20230327791A1. Автор: Mats RYDSTRÖM,Tommy ROSGARDT,Ingmar BENGTSSON. Владелец: Volvo Truck Corp. Дата публикации: 2023-10-12.

Utilizing machine learning models to generate experience driven search results based on digital canvas gesture inputs

Номер патента: US20200279008A1. Автор: Ajay Jain,Ryan Rozich,Sachin Soni,Sanjeev Tagra,Jonathan Roeder. Владелец: Adobe Inc. Дата публикации: 2020-09-03.

Continuous engineering migration of digital twin files from private to open sourced

Номер патента: US20210248251A1. Автор: Lisa Seacat Deluca,Joseph G. Berti. Владелец: International Business Machines Corp. Дата публикации: 2021-08-12.

Method and system for rapid generation and adaptation of industrial digital twin models

Номер патента: US20240169128A1. Автор: Venkataramana Runkana,Shirish Subhash Karande,Lovekesh VIG,Anirudh DEODHAR,Vishal Sudam Jadhav,Ritam Majumdar. Владелец: Tata Consultancy Services Ltd. Дата публикации: 2024-05-23.

Construction method and system for asset value models in digital twin engine

Номер патента: US20240070620A1. Автор: Jingzhou Xu,Gang Cao,Weiya Zhang,Ziqiang Xu,Honghua XU,Shaobin Sun,Zhengyi Zhu,Mengjie LV,Shufan Wang. Владелец: Nanjing Power Supply Co of State Grid Jiangsu Electric Power Co Ltd. Дата публикации: 2024-02-29.

Method of automating marketing on digital channels

Номер патента: WO2008070834A3. Автор: William Schaefer,Brad Smallwood,Christopher Raniere. Владелец: Revcube Media Inc. Дата публикации: 2008-07-31.

Systems and methods to adjust a unit of experience based on digital assets of users

Номер патента: US20240152909A1. Автор: Alif Khalfan,Brianna Cochran,Zachary Shalett,Benjamin Lopez Barba. Владелец: Disney Enterprises Inc. Дата публикации: 2024-05-09.

Systems and methods for maintaining video quality using digital twin synthesis

Номер патента: US20240223483A1. Автор: Johan KÖLHI,Anthony Friede. Владелец: Rovi Guides Inc. Дата публикации: 2024-07-04.

Intelligent advertisement system and method based on duplex printer

Номер патента: US20200160671A1. Автор: Liqiang Liu. Владелец: Guangzhou Zonerich Business Machine Co Ltd. Дата публикации: 2020-05-21.

Face image clustering method and system based on localized simple multiple kernel k-means

Номер патента: ZA202401817B. Автор: Jianping Yin,Yi Zhang,Huiying Xu,Miaomiao LI,Xinzhong ZHU. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-05-30.

Cest data fitting method and apparatus based on extrapolated semisolid magnetization transfer reference signal, and medium

Номер патента: US20240053423A1. Автор: Yi Zhang,Dan Wu,Xingwang YONG. Владелец: Zhejiang University ZJU. Дата публикации: 2024-02-15.

Target Tracking Method Based on Improved Particle Swarm Optimization Algorithm

Номер патента: NL2023430B1. Автор: Li Meng,Sun Hui,Deng Rui,LIAO Xiaolong,Li Jiabin,Wang Xuyu,Xia Longlong,Zou Shigui. Владелец: Chengdu Qitai Zhilian Information Tech Co Ltd. Дата публикации: 2020-10-06.

Picture quality optimization method, device and apparatus based on local dimming, and storage medium

Номер патента: EP3779954A1. Автор: Jilei QIN. Владелец: Shenzhen Skyworth RGB Electronics Co Ltd. Дата публикации: 2021-02-17.

Multi-view clustering method and system based on matrix decomposition and multi-partition alignment

Номер патента: US20240111829A1. Автор: Chen Zhang,Jianping Yin,Jianmin Zhao,Hongbo Li,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Wenxuan Tu. Владелец: Zhejiang Normal University CJNU. Дата публикации: 2024-04-04.

Estimation method of battery state of health based on "standard sample" and "dual-embedded decoupling"

Номер патента: US20220236335A1. Автор: Dong Lu,Ying Zhang,Long Chen,Ying Xu,Zhigang He,Limei Wang,Yingfeng Cai,Ruochen Wang,Chaofeng PAN,Sibing QIAO,Xiuliang ZHAO. Владелец: Jiangsu University. Дата публикации: 2022-07-28.

Estimation method of battery state of health based on standard sample and dual-embedded decoupling

Номер патента: US11474159B2. Автор: Dong Lu,Ying Zhang,Long Chen,Ying Xu,Zhigang He,Limei Wang,Yingfeng Cai,Ruochen Wang,Chaofeng PAN,Sibing QIAO,Xiuliang ZHAO. Владелец: Jiangsu University. Дата публикации: 2022-10-18.

Allelochemical inhibition mechanism verification method based on eco-stoichiometric equilibrium interference

Номер патента: GB2604713A. Автор: Zhang Li,Dong Yu,FU Weiguo. Владелец: Jiangsu University. Дата публикации: 2022-09-14.

System and method for nowcasting rainfall by region based on expansion of cycle-generative adversarial network

Номер патента: EP4400875A1. Автор: Kwangho Kim,Jaeho Choi,Ikhyun CHO,Yura Kim,Sunghwa JUNG. Владелец: Korea Meteorological Administration. Дата публикации: 2024-07-17.

File Service Providing Method Based on Cloud Technology and Related Device

Номер патента: US20240220459A1. Автор: Hongbo Li. Владелец: Huawei Cloud Computing Technologies Co Ltd. Дата публикации: 2024-07-04.

Underwater acoustic target ranging method based on feature extraction and neural network

Номер патента: US12038491B2. Автор: Min Huang,Di Wu,Tuo SHI,Junjun Jiang,Zhongzhe XIAO. Владелец: SUZHOU UNIVERSITY. Дата публикации: 2024-07-16.

Natural Scene Text Recognition Method Based on Sequence Transformation Correction and Attention Mechanism

Номер патента: AU2021100391A4. Автор: Tiancai Liang,Huiyun Mao,Lianwen Jin,Canjie LUO. Владелец: Zhuhai Institute of Modern Industrial Innovation of South China University of Technology. Дата публикации: 2021-04-15.

Multi-view clustering method and system based on matrix decomposition and multi-partition alignment

Номер патента: ZA202310985B. Автор: Chen Zhang,Jianping Yin,Jianmin Zhao,Hongbo Li,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Wenxuan Tu. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-06-26.

Data construction and learning system and method based on method of splitting and arranging multiple images

Номер патента: US20230146228A1. Автор: Jin Woo Kim,Ki Tae Kim. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-05-11.

Text data attribution description and generation method based on text character features

Номер патента: US20230244703A1. Автор: Li Chen,LI ZHANG,Jun Zheng,Xuemei Wang,Zhiqiang Luo,Qingsheng Li,Weifeng YIN,Guili TAO,Shuping QIU. Владелец: Communication University Of Zhejiang Tongxiang Research Institute Co Ltd. Дата публикации: 2023-08-03.

Phase failure diagnosis method based on current instruction reconstruction and negative sequence current extraction

Номер патента: EP4411398A1. Автор: Yu Zhao,PENG Gao,Shuo Li,Guoliang Diao,Yu Zhai. Владелец: Bosch Huayu Steering Systems Co Ltd. Дата публикации: 2024-08-07.

Shopping management control system based on acquaintance discount code and shopping management control method based on acquaintance discount code

Номер патента: US20200349597A1. Автор: Cheol Yeon HWANG,Ban Seok YOON. Владелец: D Unit Co Ltd. Дата публикации: 2020-11-05.

Urban nitrogen and phosphorus non-point source pollution assessment method based on remote sensing scale

Номер патента: NL2029677B1. Автор: Huang Li,Wang Yu,ZHANG Jianhui,Gao Jixi,Feng Aiping,WANG Xuelei,Xie Chengyu,Nuo Wa,Zhu Nanhua. Владелец: Mini Of Ecology And Environment Center For Satellite Application On Ecology And Environment. Дата публикации: 2022-10-20.

Vehicle-related information processing method based on blockchain and device thereof

Номер патента: EP3786871A1. Автор: Jun Liu,Xin Liu,Zhaohui Guo,Fei Lan. Владелец: Shenzhen Golo Iov Repair Technology Co Ltd. Дата публикации: 2021-03-03.

Template mark detection method and template position correction method based on single camera

Номер патента: US20240273853A1. Автор: Jian Yan,Minggang Liu,Xiangang Luo,Changtao WANG,Chengwenli LI. Владелец: Institute of Optics and Electronics of CAS. Дата публикации: 2024-08-15.

Fully automated multimodal system architecture for semantic segmentation of large-scale 3D outdoor point cloud data

Номер патента: US12062174B2. Автор: Rakesh Kumar,Supun Samarasekera,Bogdan Calin Mihai Matei,Anil Usumezbas. Владелец: SRI International Inc. Дата публикации: 2024-08-13.

Parking lot management and control method based on object activity prediction, and electronic device

Номер патента: US20230222844A1. Автор: Geni Xue. Владелец: Xian Keruisheng Innovative Technology Co Ltd. Дата публикации: 2023-07-13.

Control method and control system based on single-power caching mechanism

Номер патента: US20140239586A1. Автор: Fazhi YIN,Guoyou LIANG,Yanwen Ha. Владелец: GRG Banking Equipment Co Ltd. Дата публикации: 2014-08-28.

Self-Adaptive Horizontal Attitude Measurement Method based on Motion State Monitoring

Номер патента: US20220326017A1. Автор: QIAN LI,Yifan Zhou,Lei Wu,Yuxin Zhao,Jiancheng Wang,Shuaiyang LI,Yueyang Ben,Guangtao Zhou,Xinle Zang,Tingxiao Wei. Владелец: Harbin Engineering University. Дата публикации: 2022-10-13.

Surface mount data conversion method, system, medium and device based on component three-dimensional database

Номер патента: US20220309094A1. Автор: Jihong WU,Shengjie Qian,Guoliang Qie,Yongjian Qu. Владелец: Vayo Shanghai Technology Co Ltd. Дата публикации: 2022-09-29.

Digital holographic wrapped phase aberration compensation method based on deep learning

Номер патента: US20240273691A1. Автор: Liu Huang,Liping Yan,Benyong Chen,Jianjun TANG. Владелец: Zhejiang Sci Tech University ZSTU. Дата публикации: 2024-08-15.

Fast anti-money laundering detection method based on transaction graph

Номер патента: US20240265397A1. Автор: Changjun Jiang,Dawei CHENG,Yujia Ye. Владелец: TONGJI UNIVERSITY. Дата публикации: 2024-08-08.

Data management method, apparatus and system based on blockchain

Номер патента: US20230274271A1. Автор: Junjie Zhao. Владелец: Beijing BOE Technology Development Co Ltd. Дата публикации: 2023-08-31.

Urban nitrogen and phosphorus non-point source pollution assessment method based on remote sensing scale

Номер патента: NL2029677A. Автор: Huang Li,Wang Yu,ZHANG Jianhui,Gao Jixi,Feng Aiping,WANG Xuelei,Xie Chengyu,Nuo Wa,Zhu Nanhua. Владелец: Mini Of Ecology And Environment Center For Satellite Application On Ecology And Environment. Дата публикации: 2022-05-12.

Template mark detection method and template position correction method based on single camera

Номер патента: US12100188B2. Автор: Jian Yan,Minggang Liu,Xiangang Luo,Changtao WANG,Chengwenli LI. Владелец: Institute of Optics and Electronics of CAS. Дата публикации: 2024-09-24.

Weighted property graph data model representing system architecture

Номер патента: NZ758197B2. Автор: David Aaron GIANETTO,Stephanie Sharo Chiesi. Владелец: Raytheon Company. Дата публикации: 2022-06-28.

Method and system for railway obstacle detection based on rail segmentation

Номер патента: US12079721B2. Автор: Michael Levy,Sagi DOLBERG,Natalie DAY,Avishay ALFANDARY,Avraham Ram Guissin,Sharon BASON,Zohar Zeev SHECHTER,Shahar HANIA,Yotam AZRIEL. Владелец: RAIL VISION LTD. Дата публикации: 2024-09-03.

Data management method, apparatus and system based on blockchain

Номер патента: EP4191973A1. Автор: Junjie Zhao. Владелец: Beijing BOE Technology Development Co Ltd. Дата публикации: 2023-06-07.

Positioning system and positioning method based on sector depth camera

Номер патента: EP4443108A1. Автор: Yuelin Wang,Liying Huang,Qinwei LAI,Yongxian YAN. Владелец: Zhuhai Amicro Semiconductor Co Ltd. Дата публикации: 2024-10-09.

Measurement method and system based on image electroencephalogram sensitivity data for built environment dominant color

Номер патента: US20240335156A1. Автор: Zheng Zhou,Ying Gao,Xiao Han,Zhe Li,Jie Li,Liya Wang,Futian YUAN,Tongyi ZHU,Ruoxuan HUANG,Yinyin CAO,Hengyi ZHAO. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2024-10-10.

Touch panel, and human-computer interaction method based on touch panel

Номер патента: EP4446857A1. Автор: Li Zhou,Shuai Wang,Xiaoguang XU,Yingzi WANG,Dongsheng Huang,Hui Hua,Dexing QI. Владелец: BOE Technology Group Co Ltd. Дата публикации: 2024-10-16.

Touch panel and human-computer interaction method based on touch panel

Номер патента: US20240319814A1. Автор: Li Zhou,Shuai Wang,Xiaoguang XU,Yingzi WANG,Dongsheng Huang,Hui Hua,Dexing QI. Владелец: BOE Technology Group Co Ltd. Дата публикации: 2024-09-26.

Multi-constant pressure variable frequency water supply control method and apparatus based on resistance loss, device, and medium

Номер патента: NL2037787A. Автор: Wang Rui,Zhao Li. Владелец: China Architecture Design & Res Group Co Ltd. Дата публикации: 2024-09-18.

Unmanned aerial vehicle positioning method based on millimeter-wave radar

Номер патента: US12112645B2. Автор: Jie Chen,Gang Li,Bin He,Yanmin ZHOU,Runjie Shen,Shuping SONG. Владелец: TONGJI UNIVERSITY. Дата публикации: 2024-10-08.

Detection method and device based on laser-induced breakdown spectroscopy enhanced by 2D plasma grating

Номер патента: US12123836B2. Автор: Heping Zeng,Mengyun HU. Владелец: Guangdong ROI Optoelectronics Technology Co Ltd. Дата публикации: 2024-10-22.

Two-photon synthetic aperture microscopy system and method based on focus-tunable lens

Номер патента: EP4451035A1. Автор: Qionghai DAI,Jiamin WU,Zhifeng Zhao,Yiliang ZHOU. Владелец: TSINGHUA UNIVERSITY. Дата публикации: 2024-10-23.

Open systems architecture for vehicle systems

Номер патента: US20240330014A1. Автор: Geoffrey Joseph. Владелец: ROUSH INDUSTRIES Inc. Дата публикации: 2024-10-03.

Face image clustering method and system based on localized simple multiple kernel k-means

Номер патента: US20240331351A1. Автор: Jianping Yin,Yi Zhang,Xiao Huang,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Yunliang JIANG. Владелец: Zhejiang Normal University CJNU. Дата публикации: 2024-10-03.

Microgrid spatial-temporal perception energy management method based on safe deep reinforcement learning

Номер патента: US20240330396A1. Автор: Peiling CHEN,Yujian Ye. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2024-10-03.

Part machining feature recognition method based on machine vision learning recognition

Номер патента: US20240362934A1. Автор: Xin Gao,Pengcheng Wang,Wenping MOU,Debiao ZENG,Jianguo SHU,Binli WANG,Guobo ZHAO. Владелец: Chengdu Aircraft Industrial Group Co Ltd. Дата публикации: 2024-10-31.

Multi-view text clustering method and system based on one-step late fusion

Номер патента: ZA202401819B. Автор: Jianping Yin,Yi Zhang,Huiying Xu,Miaomiao LI,Xinzhong ZHU,Xinwang Liu. Владелец: Univ Dongguan Technology. Дата публикации: 2024-09-25.

Radiation image inspection system and method based on B/S architecture

Номер патента: US09947067B2. Автор: Min Li,LI ZHANG,Ying Li,Ziran Zhao,Limin Liu,Zhiqiang Chen,Xianghao WU,Xiaoming SONG,Xinfang HUANG. Владелец: Nectech Co Ltd. Дата публикации: 2018-04-17.

Apparatus and control method based on motion

Номер патента: US09880613B2. Автор: Takahiro Aizawa. Владелец: Sony Corp. Дата публикации: 2018-01-30.

Environment management system and environment management method based on geofence

Номер патента: EP4451200A1. Автор: Chan Hyuk Chyun. Владелец: Cesco Co Ltd. Дата публикации: 2024-10-23.

Digital twin generation and logging for a vehicle

Номер патента: US20230154240A1. Автор: Andre Lutz,Andreas Godehart,Michael J. Browne,Hilna Sahle,Mirza Maznikar. Владелец: Boeing Co. Дата публикации: 2023-05-18.

Composable digital twins

Номер патента: US20240061975A1. Автор: Troy Aaron Harvey. Владелец: PassiveLogic Inc. Дата публикации: 2024-02-22.

Systems and methods for generating search results based on optical character recognition techniques and machine-encoded text

Номер патента: US11893815B2. Автор: Vinod Balakrishnan,Xiaoyu Guo. Владелец: Yahoo Assets LLC. Дата публикации: 2024-02-06.

Creation of a digital twin for auto-discovery of hierarchy in power monitoring

Номер патента: US11899516B1. Автор: Sean Seemann. Владелец: T Mobile USA Inc. Дата публикации: 2024-02-13.

Urban digital twin platform system and moving object information analysis and management method therefor

Номер патента: US20230095663A1. Автор: Kyung Ho Kim,Sung Woong SHIN,Kang Woo Lee,A Hyun LEE. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2023-03-30.

Method of using digital twin biomarker profiles for improved sports training and performance, wellness and healthcare outcomes

Номер патента: CA3121058A1. Автор: Louis-Philippe Noel,Carl Hemond,William John Redmond,Stephanie Kamgnia Wonkap,Manon Fradin,Mildred Zulay Delgado. Владелец: Ai Genetika Inc Doing Business Biotwin AS. Дата публикации: 2022-09-17.

Digital twin simulation of interactive voice response system call

Номер патента: US20230308544A1. Автор: Girish Padmanabhan,Partho Ghosh,Soumitra Limaye. Владелец: International Business Machines Corp. Дата публикации: 2023-09-28.

System and method for quantum digital twinning and public safety management

Номер патента: US20240119550A1. Автор: Jerry Robinson,Mark Stockert,Thomas J. Routt. Владелец: AT&T INTELLECTUAL PROPERTY I LP. Дата публикации: 2024-04-11.

Cloud-based mobility digital twin for human, vehicle, and traffic

Номер патента: US20230367688A1. Автор: Rohit Gupta,Ziran Wang,Prashant Tiwari,Kyungtae Han. Владелец: Toyota Motor Engineering and Manufacturing North America Inc. Дата публикации: 2023-11-16.

Event service providing system using digital twin of real space and virtual space

Номер патента: US20220335463A1. Автор: Won Seok Lee,Ju Hyoung KIM. Владелец: Individual. Дата публикации: 2022-10-20.

A computer-implemented method, a computer program and a computer for generating a digital twin for a chemical process or an apparatus or a system of a chemical plant

Номер патента: WO2024074673A1. Автор: Markus Priske,Peter Kreis,Philip GEBUS,Leif NETT. Владелец: EVONIK OPERATIONS GMBH. Дата публикации: 2024-04-11.

Manufacturing of dental implants based on digital scan data alignment

Номер патента: US20230363732A1. Автор: Benjamin Jaehn. Владелец: Institut Straumann AG. Дата публикации: 2023-11-16.

Generating a waveform based on digital pulses

Номер патента: WO2020256855A1. Автор: Brian Charles Wadell,Richard Pye. Владелец: Teradyne, Inc.. Дата публикации: 2020-12-24.

Airport gate visual docking guidance system digital twin

Номер патента: US20230202681A1. Автор: Jayaprakash Meruva,Rajesh V. Poojary,Ganapati Hegde,Sachin Kumar S.. Владелец: Honeywell International Inc. Дата публикации: 2023-06-29.

Digital twin functional and non-functional simulation testing

Номер патента: US11971814B2. Автор: Sarbajit K. Rakshit,Venkata Vara Prasad Karri,Akash U. Dhoot,Shailendra Moyal. Владелец: International Business Machines Corp. Дата публикации: 2024-04-30.

System and method for configuring data collection for a digital twin

Номер патента: GB2607221A. Автор: BULUT Murtaza,LAVEZZO VALENTINA,Petrus Hendriks Cornelis,Gertruda Elisabeth Cox Lieke. Владелец: Koninklijke Philips NV. Дата публикации: 2022-11-30.

Validating a real-world object's digital twin

Номер патента: US20240020354A1. Автор: Warren Benedetto. Владелец: Sony Interactive Entertainment Inc. Дата публикации: 2024-01-18.

System for modelling a distributed computer system of an enterprise as a monolithic entity using a digital twin

Номер патента: US20230385707A1. Автор: Debashish Roy,Cory King,Brent Shaffer. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-11-30.

Virtual physical digital twin ecosystem

Номер патента: US11714927B2. Автор: Partho Ghosh. Владелец: International Business Machines Corp. Дата публикации: 2023-08-01.

System for measuring the performance of music artists on digital platforms

Номер патента: US20170357719A1. Автор: Scott Rutherford,Lukas Cudrigh,Paul Tomochko,Navine Karim,Marcus Heisser,Cameron Setzer,Geoff Chandler. Владелец: Red Bull Media House North America. Дата публикации: 2017-12-14.

Tracking, analysing and assessment of human body movements using a subject-specific digital twin model of the human body

Номер патента: AU2022204095A1. Автор: Amar El-Sallam,Jacqueline Alderson,Andrew Lyttle. Владелец: El Sallam Amar Dr. Дата публикации: 2022-12-01.

Powertrain architecture design tool

Номер патента: US20230367921A1. Автор: Gavin Williams. Владелец: Caterpillar Inc. Дата публикации: 2023-11-16.

Method and system for determining architectural designs for software application

Номер патента: US20170220323A1. Автор: Melwyn Anthony Dsouza. Владелец: Wipro Ltd. Дата публикации: 2017-08-03.

Method of using digital twin biomarker profiles for improved sports training and performance, wellness and healthcare outcomes

Номер патента: US20220301715A1. Автор: Louis-Philippe Noel,Carl Hemond,William John Redmond,Stephanie Kamgnia Wonkap,Manon Fradin,Mildred Zulay Delgado. Владелец: Ai Genetika Inc Doing Business Biotwin AS. Дата публикации: 2022-09-22.

Validating a real-world object's digital twin

Номер патента: WO2024015704A1. Автор: Warren Benedetto. Владелец: Sony Interactive Entertainment Inc.. Дата публикации: 2024-01-18.

Airport gate visual docking guidance system digital twin

Номер патента: US12012226B2. Автор: Jayaprakash Meruva,Rajesh V. Poojary,Ganapati Hegde,Sachin Kumar S.. Владелец: Honeywell International Inc. Дата публикации: 2024-06-18.

Digital twin for distributing decentralized compute resources

Номер патента: US12010037B1. Автор: Jason Loring Canney,Hilary Joy Traut,Alexander Staples-Moore. Владелец: Oracle International Corp. Дата публикации: 2024-06-11.

Method for running an application on a distributed system architecture

Номер патента: US20200366760A1. Автор: Wolfgang Theimer,Rolf Schuster,Jithin Reju. Владелец: VOLKSWAGEN AG. Дата публикации: 2020-11-19.

Systems and methods for identifying and remediating architecture design defects

Номер патента: US20230281369A1. Автор: Ryan Eavy,Olisa Obinna OKPOKO. Владелец: JPMorgan Chase Bank NA. Дата публикации: 2023-09-07.

Self-supervised learning method based on permutation invariant cross entropy and electronic device thereof

Номер патента: US20240105166A1. Автор: Hoon Chung,Byung Ok KANG,Yoonhyung Kim. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-03-28.

Hyperspectral image band selection method and system based on latent feature fusion

Номер патента: ZA202310318B. Автор: Jianmin Zhao,Huiying Xu,Xinzhong ZHU,Chang Tang. Владелец: Univ Zhejiang Normal. Дата публикации: 2024-04-24.

System architecture and method of processing data therein

Номер патента: US20220158821A1. Автор: Mikhail J. Atallah,Siva Chaitanya Chaduvula,Adam Dachowicz,Jitesh H Panchal,Mohammad S. Rahman. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2022-05-19.

Method of predicting protein-ligand docking structure based on quantum mechanical scoring

Номер патента: US8886505B2. Автор: Art Eunsung CHO. Владелец: QUANTUM BIO SOLUTIONS Co Ltd. Дата публикации: 2014-11-11.

Intruder detection method based on multiple camera images and video surveillance system suitable for the same

Номер патента: US20240078799A1. Автор: Young Il Kim,Il Woo Lee,Geon Min Yeo,Wun Cheol Jeong,Tae Wook Heo,Seong Hee PARK. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2024-03-07.

Reinforcement learning apparatus and method based on user learning environment

Номер патента: US20230088699A1. Автор: Sung Min Lee,Dong Hyun Lee,Won Young Cho,Ye Rin MIN,Yeon Sang YU,Ba Da KIM. Владелец: Agilesoda Inc. Дата публикации: 2023-03-23.

Industrial 5G dynamic multi-priority multi-access method based on deep reinforcement learning

Номер патента: US12035380B2. Автор: Xi Jin,Peng Zeng,Xiaoyu Liu,Haibin Yu,Chi XU,Changqing Xia. Владелец: Shenyang Institute of Automation of CAS. Дата публикации: 2024-07-09.

Intelligent decision-making system and method based on agricultural field variabilities

Номер патента: WO2023037019A1. Автор: Dr. Chamil KULATUNGA,Prof. Tahar KECHADI. Владелец: UNIVERSITY COLLEGE DUBLIN. Дата публикации: 2023-03-16.

Cigarette tip drop inclination performance detection device and method based on behavioral features of emulated drop of manually discarded cigarette ash

Номер патента: US20200150102A1. Автор: Liu Hong,BIN Li,Yi Zhang,Long Zhang,Zhigang Li,Zhenyu XU,Xiaoling TANG,Mingjian Zhang,Yaoshuo SANG,Bingyang XU. Владелец: China Tobacco Jiangxi Industrial Co Ltd. Дата публикации: 2020-05-14.

Cigarette tip drop inclination performance detection device and method based on behavioral features of emulated drop of manually discarded cigarette ash

Номер патента: EP3620788A1. Автор: Liu Hong,BIN Li,Yi Zhang,Long Zhang,Zhigang Li,Zhenyu XU,Xiaoling TANG,Mingjian Zhang,Yaoshuo SANG,Bingyang XU. Владелец: China Tobacco Jiangxi Industrial Co Ltd. Дата публикации: 2020-03-11.

Moving object sensing system and method based on motion propensity

Номер патента: US12019089B2. Автор: Tae Yoon SON,Tae Yun Lee,Jin Gyu JANG. Владелец: Hyundai Mobis Co Ltd. Дата публикации: 2024-06-25.

Apparatuses, computer-implemented methods, and computer program products for real-time environment digital twin simulating

Номер патента: US20230076433A1. Автор: Mayank PATHAK,Thomas Henry Evans,Jagtar Singh. Владелец: INTELLIGRATED HEADQUARTERS LLC. Дата публикации: 2023-03-09.

Energy based surgical systems and methods based on an artificial-intelligence learning system

Номер патента: EP4110216A1. Автор: Christopher T. Brown,Jing Zhao,Anjali Dhiman. Владелец: COVIDIEN LP. Дата публикации: 2023-01-04.

Memory Identification and Recovery Method and System Based on Recognition

Номер патента: US20200035347A1. Автор: Robert K F Teng. Владелец: Individual. Дата публикации: 2020-01-30.

Multispectral color imaging device based on integrating sphere lighting and calibration methods thereof

Номер патента: EP3724638A1. Автор: John Haozhong Xin,Hui-liang SHEN,Quan-Geng Ge. Владелец: Hong Kong Research Institute of Textiles and Apparel Ltd. Дата публикации: 2020-10-21.

Segmentation and tracking system and method based on self-learning using video patterns in video

Номер патента: US20220121853A1. Автор: Sang Joon Park,Eun Young Cho,Sung Woo JUN,Chang Eun Lee,So Yeon Lee,Blagovest Iordanov VLADIMIROV,Jin Hee SON,Jin Mo CHOI. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2022-04-21.

Upgrade method based on basic input output system (bios) and terminal device

Номер патента: EP4394585A1. Автор: Chao XIANG. Владелец: Honor Device Co Ltd. Дата публикации: 2024-07-03.

Service processing system and method based on blockchain

Номер патента: US20210165781A1. Автор: Yu Yan,Zhenyu Wang,Nan Li,Songbo YUE. Владелец: Advanced New Technologies Co Ltd. Дата публикации: 2021-06-03.

Image transmisstion method based on accumulation of region of interest

Номер патента: US20240127488A1. Автор: Jin Young Lee,Sang Kyun Kim,Hee Kyung Lee. Владелец: Industry Academy Cooperation Foundation of Myongji University. Дата публикации: 2024-04-18.

Holographic electromagnetic induction chest imaging method based on sparse sampling and imaging system thereof

Номер патента: AU2020103702A4. Автор: Lulu Wang. Владелец: Shenzhen Technology University. Дата публикации: 2021-02-04.

Positioning system and method based on radio communication apparatus comprising multiple antenna

Номер патента: WO2010137790A1. Автор: Taikjin Lee,Changdon Kee. Владелец: SNU R&DB FOUNDATION. Дата публикации: 2010-12-02.

Operation system based on membership level and method thereof

Номер патента: PH12020050529A1. Автор: Chien Wei Huang,Chia Hui Pan. Владелец: Jie Hang Network Tech Ltd. Дата публикации: 2021-11-22.

Distributed processing method and apparatus based on consistency protocol and storage medium

Номер патента: US20200396290A1. Автор: Tong Xing MA. Владелец: Tencent Technology Shenzhen Co Ltd. Дата публикации: 2020-12-17.

Target object cross-media imaging simulation method based on monte carlo

Номер патента: ZA202310738B. Автор: Bing Zheng,Jian Min,Qing Han,Min Fu,Mengnan Sun,Guoshuai Wu. Владелец: Ocean Univ China. Дата публикации: 2023-12-20.

Systems and methods based on deep reinforcement learning and planning for shaping neural activity, rewiring neural circuits, augmenting neural function and/or restoring neural function

Номер патента: US20230137595A1. Автор: Rajesh P.N. Rao. Владелец: UNIVERSITY OF WASHINGTON. Дата публикации: 2023-05-04.

Dual uv overlay display method based on 3d model on web side

Номер патента: LU502860B1. Автор: Haifeng Zhou. Владелец: Beijing Mimu Digital Tech Co Ltd. Дата публикации: 2023-03-29.

Eeg decoding method based on a non-negative cp decomposition model

Номер патента: US20210161478A1. Автор: Bao Yu,Shiwei Wang,Yaodong Wang,Rongrong FU. Владелец: YANSHAN UNIVERSITY. Дата публикации: 2021-06-03.

Analog-circuit fault diagnosis method based on continuous wavelet analysis and ELM neural network

Номер патента: US11280826B2. Автор: Wei He,Tao Wang,Yigang HE,Zhigang Li,Liulu HE,Luqiang SHI,Zhijie YUAN,Qiwu LUO,Tiancheng SHI,Deqin ZHAO. Владелец: Hefei University of Technology. Дата публикации: 2022-03-22.

Image scaling method based on linear extension/contraction mode

Номер патента: US20210327021A1. Автор: Chaoyi Pang,Huanyu Zhao,Tongliang LI. Владелец: Zhejiang University Nit. Дата публикации: 2021-10-21.

Systems supporting luminaire selection and architectural design

Номер патента: US11995728B2. Автор: Julie Johnson. Владелец: Liteseeker Solutions Inc. Дата публикации: 2024-05-28.

Emotion analysis method of weibo's short texts based on context semantics

Номер патента: LU504152B1. Автор: WEI Shi. Владелец: Univ Zhejiang Ocean. Дата публикации: 2023-11-10.

Data allocation within a storage system architecture

Номер патента: WO2006119021A1. Автор: Richard P. Jernigan, IV,Peter F. Corbett,Allen Tracht. Владелец: Network Appliance, Inc.. Дата публикации: 2006-11-09.

Static analysis performing method based on voice information and device for the same

Номер патента: US10978065B2. Автор: June Kim,Hyun Seop Bae,Seung-uk Oh,Min Hyuk Kwon. Владелец: SURESOFT TECHNOLOGIES Inc. Дата публикации: 2021-04-13.

Communication system and codec method based on deep learning and known channel state information

Номер патента: US20200220593A1. Автор: Wan-Ting SHIH,Ren-Jr Chen,Chao-Kai Wen. Владелец: Industrial Technology Research Institute ITRI. Дата публикации: 2020-07-09.

Information read/write method and apparatus based on blockchain

Номер патента: US20200250138A1. Автор: Duofeng Hu. Владелец: Alibaba Group Holding Ltd. Дата публикации: 2020-08-06.

Path planning method based on dynamic contour offset discretization and for spatial curved-surface printing

Номер патента: US20240227307A1. Автор: Jinghua ZHENG,Zhongde Shan,Yiwei Chen,Congze FAN,Wenzhe Song,Yaxing Song. Владелец: Nanjing University of Aeronautics and Astronautics. Дата публикации: 2024-07-11.

Carelessness determination method based on analysis of driver's biological state, and smart cruise control association system and method using the same

Номер патента: US11970182B2. Автор: Young Min Jang,Tae Yoon SON. Владелец: Hyundai Mobis Co Ltd. Дата публикации: 2024-04-30.

Method of predicting protein-ligand docking structure based on quantum mechanical scoring

Номер патента: US20110246166A1. Автор: Art Eunsung CHO. Владелец: KOREA UNIVERSITY RESEARCH AND BUSINESS FOUNDATION. Дата публикации: 2011-10-06.

Intelligent decision-making system and method based on agricultural field variabilities

Номер патента: EP4402651A1. Автор: Dr. Chamil KULATUNGA,Prof. Tahar KECHADI. Владелец: UNIVERSITY COLLEGE DUBLIN. Дата публикации: 2024-07-24.

System architecture and method of processing data therein

Номер патента: US20200059351A1. Автор: Siva Chaitanya Chaduvula,Mikhail J Atallah,Adam Dachowicz,Jitesh H Panchal,Mohammad S Rahman. Владелец: PURDUE RESEARCH FOUNDATION. Дата публикации: 2020-02-20.

Containerized modeling of device updates or modifications via digital twins

Номер патента: EP4345616A1. Автор: Chris Softley,Michael J. Anthony,Tim S. Biernat,David C. Mazur,Patrick E. Ozimek,Jonathan Alan Mills,Rob A. Entzminger,Nathaniel S. Sandler,Jr. Bruce T. McCleave. Владелец: Rockwell Automation Technologies Inc. Дата публикации: 2024-04-03.

Multi-layer distributed processing system for user service requests in digital twin environment

Номер патента: US20240202034A1. Автор: Younghan Kim,Hyunseuk AHN,Changseok YUN. Владелец: KOREA ELECTRONICS TECHNOLOGY INSTITUTE. Дата публикации: 2024-06-20.

Authentication protection system and method based on trusted environment, and storage medium

Номер патента: EP3651428A1. Автор: Zuolong WANG. Владелец: Sanechips Technology Co Ltd. Дата публикации: 2020-05-13.

Mouthful packaged raw liquor and assembly, and personalized pre-ordering method based on liquor tasting habits

Номер патента: US20240174421A1. Автор: Shufu Li. Владелец: Zhejiang Geely Holding Group Co Ltd. Дата публикации: 2024-05-30.

In situ code design methods for minimizing optical crowding

Номер патента: WO2023172915A1. Автор: Preyas Shah,Patrick J. MARKS. Владелец: 10x Genomics, Inc.. Дата публикации: 2023-09-14.

Electronic Trading System and Method based on Point-to-Point Mesh Architecture

Номер патента: US20220044319A1. Автор: Anthony D. Amicangioli,Allen Bast,B. Joshua Rosen,Christophe Juhasz. Владелец: Hyannis Port Research Inc. Дата публикации: 2022-02-10.

An authenticable image sharing scheme based on QR code

Номер патента: AU2021104272A4. Автор: Wenying Wen,Changsheng Hua,Yunpeng Jian. Владелец: Jiangxi University of Finance and Economics. Дата публикации: 2021-09-09.

Neural architecture search method based on knowledge distillation

Номер патента: US20220156596A1. Автор: Kwan Woo Park. Владелец: AImatics Co Ltd. Дата публикации: 2022-05-19.

Neural network compression based on bank-balanced sparsity

Номер патента: US11763156B2. Автор: Chen Zhang,Yunxin Liu. Владелец: Microsoft Technology Licensing LLC. Дата публикации: 2023-09-19.

Historical building identification and detection method based on deep learning and high-resolution images

Номер патента: AU2021101857A4. Автор: Yu Zhang,QI Chen,Zhiyun Chen,Yongzhu Xiong,Kekun Huang,Changbai Zhu,Mingyong Zhu. Владелец: Univ Of Hawaii At Manoa. Дата публикации: 2021-06-03.

Learning operating method based on federated distillation, learning operating server, and learning operating terminal

Номер патента: US20220253752A1. Автор: Eun Jeong Jeong,Seong Lyun Kim,Hye Sung Kim,Seung Eun Oh. Владелец: University Industry Foundation UIF of Yonsei University. Дата публикации: 2022-08-11.

Gas recharge management method based on compound internet of things (iot) and iot system

Номер патента: US20200311833A1. Автор: Zehua Shao. Владелец: Chengdu Qinchuan Technology Development Co Ltd. Дата публикации: 2020-10-01.

Deep learning heterogeneous computing method based on layer-wide memory allocation and system thereof

Номер патента: US11568268B2. Автор: Hai Jin,Long Zheng,Haikun Liu,Xiaofei Liao,Xi Ge. Владелец: HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY. Дата публикации: 2023-01-31.

Image defogging method based on simulated polarization foggy scene data set

Номер патента: US20220222785A1. Автор: FENG Lu,Sijia Wen. Владелец: BEIHANG UNIVERSITY. Дата публикации: 2022-07-14.

Speech separation method based on time-frequency cross-domain feature selection

Номер патента: NL2029780B1. Автор: LIU Qiao,Chen Cong,Lan Tian,LI Jiajia,Lv Yilan,Wu Zufeng,Feng Yujia,Kang Hongbo,Qian Yuxin. Владелец: Univ Electronic Sci & Tech China. Дата публикации: 2023-03-14.

Remediating Vulnerabilities in Digital Twins

Номер патента: GB2602481A. Автор: El-Moussa Fadi,Conway Anthony,OWUSU Gilbert,PENA-RIOS Anasol. Владелец: British Telecommunications plc. Дата публикации: 2022-07-06.

Education system for pharmaceutical quality by design method

Номер патента: EP4044102A1. Автор: Kang Hee KIM. Владелец: LG Chem Ltd. Дата публикации: 2022-08-17.

An optimal credit rating division method based on maximizing credit similarity

Номер патента: US20180308158A1. Автор: Guotai CHI,Zhichong ZHAO. Владелец: Dalian University of Technology. Дата публикации: 2018-10-25.

Test method based on improved rest protocols and electronic device

Номер патента: US20220035731A1. Автор: Chien-Wu Yen. Владелец: Hon Hai Precision Industry Co Ltd. Дата публикации: 2022-02-03.

Positioning system and method based on radio communication apparatus comprising multiple antenna

Номер патента: EP2438456A1. Автор: Taikjin Lee,Changdon Kee. Владелец: SNU R&DB FOUNDATION. Дата публикации: 2012-04-11.

Quantum mechanical machine vision system and arithmetic operation method based on orbital qubit

Номер патента: US10482387B2. Автор: Do Yeol Ahn. Владелец: Industry Cooperation Foundation of University of Seoul. Дата публикации: 2019-11-19.

Brain machine interface decoding method based on spiking neural network

Номер патента: US20230289575A1. Автор: Yu Qi,Gang Pan,Tao FANG,Yueming Wang. Владелец: Zhejiang University ZJU. Дата публикации: 2023-09-14.

Semi-supervised Hyperspectral Data Quantitative Analysis Method Based on Generative Adversarial Network

Номер патента: US20220129735A1. Автор: CHANG Li,WEI Han,Weixin LIU,Yisen Liu,Songbin Zhou,Kejia Huang,Zefan Qiu. Владелец: Institute of Intelligent Manufacturing of Guangdong Academy of Sciences. Дата публикации: 2022-04-28.

Neural architecture search method based on knowledge distillation

Номер патента: US12051004B2. Автор: Kwan Woo Park. Владелец: AImatics Co Ltd. Дата публикации: 2024-07-30.

Virtual reality immersion with an architectural design software application

Номер патента: CA3189664A1. Автор: Michael IANNONE. Владелец: DIRTT ENVIRONMENTAL SOLUTIONS LTD. Дата публикации: 2023-08-14.

Avoiding Intensity Sources in Pathfinding for Software Agents in a Digital Twin

Номер патента: US20230115720A1. Автор: Christopher A. Guryan,Bradford Sims Robnett,Aaron Robert Kraft,Joshua David Jewett,Allan Phillips Frankel. Владелец: Individual. Дата публикации: 2023-04-13.

Supplier virtuous cycle evaluation method based on on-site verification

Номер патента: US20240273585A1. Автор: Moon Kwan PARK. Владелец: Individual. Дата публикации: 2024-08-15.

Fast scan exposure method based on dmd

Номер патента: EP3722878A1. Автор: Hongfei BIAN. Владелец: Circuit Fabology Microelectronics Equipment Co Ltd. Дата публикации: 2020-10-14.

Method for generating a digital twin of a facility

Номер патента: AU2023227394A1. Автор: Guillaume Delarue,Shivani Shah,Laurent BOURGOUIN,Nachwa ABOU BAKR,Chayan TOUFAN,Loic LANDRIEU. Владелец: Individual. Дата публикации: 2024-09-12.

Photolithography method based on bilayer photoresist

Номер патента: US20240295817A1. Автор: Yijiao GAO. Владелец: Shanghai Microstart Photoelectric Technology Co Ltd. Дата публикации: 2024-09-05.

Model distribution application design method and system based on edge computing gateway

Номер патента: CN114338281B. Автор: 袁峰,陈升东,郑创杰,黄朝裕. Владелец: Guangzhou Software Application Technology Research Institute. Дата публикации: 2023-04-07.

Cultivation method based on optimization of plant nitrogen fertilizer disclosure amount

Номер патента: US20230009752A1. Автор: Li Lin,Changning LI,Jinlan Xie,Qian Nong,Zhanghong Mo. Владелец: Guangxi Zhuang Nationality Autonomous Region Academy of Agricultural Sciences. Дата публикации: 2023-01-12.

Shore-based intelligent mooring system and method based on on-site real-time feedback

Номер патента: ZA202300484B. Автор: Gao Feng,Yang Huili,SHEN Wenjun,LIU Mingyang,ZHANG Yajing,Tan Zhonghua,Zhang Huaqing,CHEN Songgui,CHEN Hanbao,LUAN Yingni,CHU Yiyun,Hu Jielong,KANG Gelin,GENG Baolei,Jin Ruijia,Qi Zuoda. Владелец: Tianjin Research Inst Water Transp Engineering Mot. Дата публикации: 2023-08-30.

Differential chaos shift keying (DCSK) communication method and device based on three-dimensional constellation

Номер патента: US12088440B1. Автор: Yi Fang,Chang Liu,Guojun Han,Yiwei Tao,Yanhua Tan. Владелец: GUANGDONG UNIVERSITY OF TECHNOLOGY. Дата публикации: 2024-09-10.

Hydrogen refueling stations based on low-temperature and high-pressure graded hydrogen storage and gaseous hydrogen refueling methods thereof

Номер патента: US12085232B1. Автор: Sheng Ye,Jinyang ZHENG,Yehong Yu,Zhengli Hua,Chaohua Gu. Владелец: Zhejiang University ZJU. Дата публикации: 2024-09-10.

Train positioning method based on dynamic map

Номер патента: EP4406812A1. Автор: Xing Fang,Ben Liu,Ming Chang,Xinjun Lv,Jingen Hu,Ziming GUO,Xuchao Wang. Владелец: Casco Signal Ltd. Дата публикации: 2024-07-31.

Hybrid beamforming method based on residual optimization in unmanned aerial vehicle communication scene

Номер патента: NL2034388A. Автор: Liu Xiaoming,Wang Ye,Gan Lu,ZHANG Ran,Feng Youhong. Владелец: Univ Anhui Normal. Дата публикации: 2024-08-16.

Consistent clock synchronization frequency offset estimation method based on sequential least squares

Номер патента: US12127143B2. Автор: PING Wang,Heng Wang,Pengfei Gong. Владелец: Chongqing University of Post and Telecommunications. Дата публикации: 2024-10-22.

Asymmetric massive mimo channel estimation method based on co-prime array

Номер патента: US20240364389A1. Автор: Jun Zhang,Hongbo Zhu,Hairong Wang,Wenjun Lv,Shu CAI,Jiacheng Lu. Владелец: NANJING UNIVERSITY OF POSTS AND TELECOMMUNICATIONS. Дата публикации: 2024-10-31.

CCT tuning daylighting system and method based on luminosity measurements

Номер патента: US09860957B1. Автор: Helmar Adler,Emily PETERSON. Владелец: Osram Sylvania Inc. Дата публикации: 2018-01-02.

5G-TSN resource joint scheduling apparatus and method based on DDPG

Номер патента: US12041602B1. Автор: SHA Li,Wei Li,Yang Zhang,Lei Sun,Yuan Zhu,Jianquan Wang. Владелец: University of Science and Technology Beijing USTB. Дата публикации: 2024-07-16.

Active suspension inertia regulation method based on vehicle-front terrain, and control system

Номер патента: EP4206006A1. Автор: Shuang Liu,Zhiguo Sun,Mingde GONG,Tao NI,Zhuxin ZHANG,Dingxuan ZHAO. Владелец: YANSHAN UNIVERSITY. Дата публикации: 2023-07-05.

Optimized battery charging method based on thermodynamic information of battery

Номер патента: US09985466B2. Автор: Sang-Gug Lee,Guillaume Thenaisie. Владелец: Korea Advanced Institute of Science and Technology KAIST. Дата публикации: 2018-05-29.

Electric vehicle aggregation method based on continuous tracking of wind power curve

Номер патента: US20230331098A1. Автор: Yue Zhang,YE Yang,Wen Wang,Dunnan LIU,Heping Jia,Mingguang LIU,Xiaofeng Peng,Shu SU. Владелец: State Grid Electric Vehicle Service Co. Дата публикации: 2023-10-19.

Filter design methods and filters based on metamaterial structures

Номер патента: CN102017404B. Автор: 马哈·埃乔尔. Владелец: Hollinworth Fund LLC. Дата публикации: 2013-11-20.

PDCCH search space design method and device based on binary tree

Номер патента: CN110463125B. Автор: H·李,J·孙,T·罗. Владелец: Qualcomm Inc. Дата публикации: 2022-04-12.

A kind of SNMP Simulator design method and device based on XML

Номер патента: CN106533765B. Автор: 庞建军. Владелец: Chengdu Guangda New Network Technology Co Ltd. Дата публикации: 2019-10-29.

Vr application design method and system based on cloud mobile phone

Номер патента: WO2022048677A1. Автор: 李东升,聂颂. Владелец: 华为云计算技术有限公司. Дата публикации: 2022-03-10.

Filter design methods and filters based on metamaterial structures

Номер патента: KR101192231B1. Автор: 마하 애코어. Владелец: 홀린워스 펀드, 엘.엘.씨.. Дата публикации: 2012-10-17.

Money vehicle body structure design method is changed based on trunk door variation in moulding

Номер патента: CN105667633B. Автор: 陈东,邓卫东,谢洁涛,黄健梓,高喜海. Владелец: Guangzhou Automobile Group Co Ltd. Дата публикации: 2018-04-20.

Space assembly system based on fusion of on-orbit additive manufacturing and ground-based launch

Номер патента: US20230382054A1. Автор: Zhenyu Liu,Mingfu Li,Wenquan ZHAO,Linling Li. Владелец: XIANGTAN UNIVERSITY. Дата публикации: 2023-11-30.

System architecture of charging device for accumulators based on gallium nitride-based power supply devices

Номер патента: RU2721332C2. Автор: Камиар Дж. КАРИМИ,Юджин В. СОЛОДОВНИК. Владелец: Зе Боинг Компани. Дата публикации: 2020-05-19.

Uplink transmission method based on a licensed access support system, laa, and a device

Номер патента: RU2696089C1. Автор: Кай СЮЙ,Сяоцуй ЛИ. Владелец: Хуавэй Текнолоджиз Ко., Лтд.. Дата публикации: 2019-07-31.

Angular domain channel estimation method based on matrix reconstruction for symmetrical nonuniform array

Номер патента: US20240089152A1. Автор: Li Li,Yanyan Wang,Xianfu LEI,Xiaohu Tang,Qidi Li. Владелец: Southwest Jiaotong University. Дата публикации: 2024-03-14.

Clock skew tracking method based on weighted observation fusion and timestamp free interaction

Номер патента: US20240204895A1. Автор: PING Wang,Heng Wang,Rui Lu,Zhengcen Peng. Владелец: Chongqing University of Post and Telecommunications. Дата публикации: 2024-06-20.

Communication method and apparatus based on measurement relaxation mechanism, and storage medium

Номер патента: EP4422270A1. Автор: Ziquan HU. Владелец: Beijing Xiaomi Mobile Software Co Ltd. Дата публикации: 2024-08-28.

Nct scc activation control device and method, base station control method and device

Номер патента: RU2660930C2. Автор: Сяодун Сюй,Ятэн ХУН,Я Лю. Владелец: Сони Корпорейшн. Дата публикации: 2018-07-11.

Low-temperature scr method based on urea in the presence of exhaust gases with high sulfur content

Номер патента: RU2724607C2. Автор: Ральф ДОТЦЕЛЬ,Райнер ЛЕППЕЛЬТ,Йорг МЮНХ,Мария БРАНДМАЙР,Родни ФУ. Владелец: Джонсон Мэтти Паблик Лимитед Компани. Дата публикации: 2020-06-25.

5g-tsn resource joint scheduling apparatus and method based on ddpg

Номер патента: US20240251399A1. Автор: SHA Li,Wei Li,Yang Zhang,Lei Sun,Yuan Zhu,Jianquan Wang. Владелец: University of Science and Technology Beijing USTB. Дата публикации: 2024-07-25.

Costas sequence time-frequency synchronization method based on all-phase spectrum correction

Номер патента: EP4117245A1. Автор: Huan Ma,Jinghui Li,Guojun Li,Changrong YE,Yiping Luo,Guangfa ZHENG,Zunli WANG. Владелец: Chongqing University of Post and Telecommunications. Дата публикации: 2023-01-11.

Improved sewage treatment system and method based on combined physical and chemical coagulation method

Номер патента: NL2034833B1. Автор: Ma Yingying. Владелец: Univ Inner Mongolia Technology. Дата публикации: 2024-06-12.

An AR Interactive Device Based On Digital Twin

Номер патента: LU500495B1. Автор: Haijun Zhang,Qiong YAN. Владелец: Univ Zhengzhou Aeronautics. Дата публикации: 2022-02-02.

Digital twin task authorization method and apparatus, communication device, and readable storage medium

Номер патента: EP4398547A1. Автор: Xiaowan KE. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-07-10.

Digital twinning of large-scale networks

Номер патента: US20240007402A1. Автор: Kevin A. Delson. Владелец: Bank of America Corp. Дата публикации: 2024-01-04.

Coal mine development method, based on control of performance of second mining operations, separation of minerals from massif and laying of mined space

Номер патента: RU2720029C1. Автор: Цян Чжан,Цзисюн ЧЖАН,Цзяци ВАН,Ян ЧЭНЬ,Чжунъя У,Фэн ЦЗЮЙ. Владелец: Сюйчжоу Чжункуан Бэкфиллинг Энд Майнинг Текнолоджи Ко., Лтд. Дата публикации: 2020-04-23.

Device and method, based on neural networks, for estimating the lateral speed of vehicles

Номер патента: WO2023166536A1. Автор: Mauro DA LIO,Francesco BIRAL,Mattia PICCININI. Владелец: Universita' Degli Studi Di Trento. Дата публикации: 2023-09-07.

Method and apparatus for digital twin-based beamforming

Номер патента: US20240073702A1. Автор: Won Tae Kim,Han Jin Kim,Jun Hyung Kwon. Владелец: Industry University Cooperation Foundation of Korea University of Technology and Education. Дата публикации: 2024-02-29.

Digital twin-based edge server switching decision

Номер патента: US20210314417A1. Автор: Dawei Chen,BaekGyu Kim,Roger Melen. Владелец: Toyota Motor Engineering and Manufacturing North America Inc. Дата публикации: 2021-10-07.

Method for positioning a fiber-optic probe for precision optical diagnostics of hemodynamics and oxygen regime of periodontal tissues based on cad technology

Номер патента: RU2758660C1. Автор: Олег Олегович Янушевич,Сергей Николаевич Ермольев,Юрий Алексеевич Винниченко,Андрей Андреевич Фленкин,Нина Андреевна Меркушева,Юрий Викторович Боярский,Артур Иззетович Ахметов. Владелец: федеральное государственное бюджетное образовательное учреждение высшего образования "Московский государственный медико-стоматологический университет имени А.И. Евдокимова" Министерства здравоохранения Российской Федерации (ФГБОУ ВО МГМСУ им. А.И. Евдокимова Минздрава России). Дата публикации: 2021-11-01.

Optical signal transmission device and method based on digital predistortion in symbol domain

Номер патента: US20240056109A1. Автор: Ke Zhang,Zhenning Tao. Владелец: Fujitsu Ltd. Дата публикации: 2024-02-15.

An Electric Power Digital Twin Technology Processing Platform

Номер патента: LU505395B1. Автор: Liu Yang,Min Hong,Liang Zhang,Xue Wang,Ping Sun,Rui Ma,Lei Shu,Wenjie Xu,Ting Jin,Yumei Guo,Xuedong Mao,Xingzi Chen,Si Cai. Владелец: Hubei Electric Power Planning Design And Res Institute Co Ltd. Дата публикации: 2024-04-30.

Dynamically informed digital twins

Номер патента: US11985074B1. Автор: Yanexis Pupo Toledo,Herberth Birck Fröhlich,Werner Spolidoro Freund,Ítalo Gomes Santana. Владелец: Dell Products LP. Дата публикации: 2024-05-14.

Digital twin subsystem and service providing device

Номер патента: EP4376374A1. Автор: Xiaobo Wu,Xiaowan KE,Yannan YUAN. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-05-29.

Digital twin task authorization method and apparatus, communications device, and readable storage medium

Номер патента: US20240205212A1. Автор: Xiaowan KE. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-06-20.

Method for linking a digital twin to a subsystem of a real system and twin abstraction interface

Номер патента: EP4422136A1. Автор: Florian ZEIGER,Andreas Blenk. Владелец: SIEMENS AG. Дата публикации: 2024-08-28.

Image encoding method based on individual secondary conversion and device for it

Номер патента: RU2760566C2. Автор: Дзаехиун ЛИМ,Моонмо КОО,Мехди САЛЕХИФАР,Сеунгхван КИМ. Владелец: ЭлДжи ЭЛЕКТРОНИКС ИНК.. Дата публикации: 2021-11-29.

Direct radiation wireless digital communications system and method based on digital coding metamaterial

Номер патента: US20210006441A1. Автор: Shuo Liu,Tiejun CUI,Guodong BAI. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2021-01-07.

Direct radiation wireless digital communication system and method based on digital coding metamaterial

Номер патента: EP3675283A1. Автор: Shuo Liu,Tiejun CUI,Guodong BAI. Владелец: SOUTHEAST UNIVERSITY. Дата публикации: 2020-07-01.

Method and apparatus for digital twin-based beamforming

Номер патента: US12028722B2. Автор: Won Tae Kim,Han Jin Kim,Jun Hyung Kwon. Владелец: Industry University Cooperation Foundation of Korea University of Technology and Education. Дата публикации: 2024-07-02.

Systems and methods for implementing digital twin with a live streaming map

Номер патента: EP4397015A1. Автор: Brian Mengwasser. Владелец: Dish Wireless LLC. Дата публикации: 2024-07-10.

Real-time robotic control using digital twin models

Номер патента: US20240217105A1. Автор: Stoyan GAYDAROV,Michael Beardsworth. Владелец: Intrinsic Innovation LLC. Дата публикации: 2024-07-04.

Operating a wireless communication network using a digital twin

Номер патента: WO2023078566A1. Автор: Thomas Haustein,Paul Simon Holt Leather. Владелец: FRAUNHOFER-GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG E.V.. Дата публикации: 2023-05-11.

Uranium and associated elements production method based on underground well leaching technology with plasma-pulse action on well hydrosphere

Номер патента: RU2685381C1. Автор: Анатолий Александрович Молчанов,Виталий Никифорович Даниленко,Юрий Васильевич Демехов,Алексей Борисович Волков,Андрей Алексеевич Волков. Владелец: Общество с ограниченной ответственностью научно-производственный центр "ГеоМИР" (ООО НПЦ "ГеоМИР"). Дата публикации: 2019-04-17.

Method for noise-immune gradient selection of object contours on digital halftone images

Номер патента: RU2695417C1. Автор: Вячеслав Владимирович Воронин,Дмитрий Анатольевич Безуглов,Владимир Алексеевич Крутов. Владелец: федеральное государственное бюджетное образовательное учреждение высшего образования "Донской государственный технический университет" (ДГТУ). Дата публикации: 2019-07-23.

System and method for providing services using digital twins

Номер патента: US20230396650A1. Автор: Humayun Sheikh,Devon BLEIBTREY. Владелец: Fetch AI Ltd. Дата публикации: 2023-12-07.

A security management method based on load balancing

Номер патента: LU505532B1. Автор: Cheng Tan,Zhen Liang,Jie Li,Jian Wu,Dawei Shen,Bei Zhou,Yungang SUN,Pengfei XIE,Pengcheng Liu,Weihai WANG,shuai Cong,Bingkai Sun,Minghao Xia. Владелец: Zhengzhou Xinda Yungu Tech Co Ltd. Дата публикации: 2024-05-16.

Power line communication interference probing and measurement on digital subscriber lines

Номер патента: US09998174B2. Автор: Laurent Alloin,Hassan Afkhami,Vinay Kumar CHAPALA. Владелец: Ikanos Communications Inc. Дата публикации: 2018-06-12.

Method for reconstructing a digital image based on digital fragments of the digital image

Номер патента: WO2024069529A1. Автор: Simone RUSSO. Владелец: Whtexch Solutions S.R.L.. Дата публикации: 2024-04-04.

Digital twin subsystem and service providing apparatus

Номер патента: US20240154876A1. Автор: Xiaobo Wu,Xiaowan KE,Yannan YUAN. Владелец: Vivo Mobile Communication Co Ltd. Дата публикации: 2024-05-09.

Method and electronic device for building digital twin based on data of base station in commercial networ

Номер патента: US20230362681A1. Автор: Seungmo Kim,Seowoo JANG,Yujin NAM,Haksung KIM,Gyeongmin PYEON. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2023-11-09.

Image coding method based on motion vector and apparatus therefor

Номер патента: US20210021834A1. Автор: Seunghwan Kim,Seethal Paluri. Владелец: LG ELECTRONICS INC. Дата публикации: 2021-01-21.

Image coding method based on motion vector and apparatus therefor

Номер патента: EP3780609A1. Автор: Seunghwan Kim,Seethal Paluri. Владелец: LG ELECTRONICS INC. Дата публикации: 2021-02-17.

Image coding method based on motion vector and apparatus therefor

Номер патента: US20220159266A1. Автор: Seunghwan Kim,Seethal Paluri. Владелец: LG ELECTRONICS INC. Дата публикации: 2022-05-19.

Selective fidelity rates for network traffic replication by a digital twin device

Номер патента: US12028262B2. Автор: Jay Kemper Johnston,David C. White, Jr.,Magnus Mortensen. Владелец: Cisco Technology Inc. Дата публикации: 2024-07-02.

Image coding method based on motion vector and apparatus therefor

Номер патента: US20230300342A1. Автор: Seunghwan Kim,Seethal Paluri. Владелец: LG ELECTRONICS INC. Дата публикации: 2023-09-21.

Image coding method based on motion vector and apparatus therefor

Номер патента: US20240298003A1. Автор: Seunghwan Kim,Seethal Paluri. Владелец: LG ELECTRONICS INC. Дата публикации: 2024-09-05.

Beam configuration method, beam determination method, base station, signal transfer device, and storage medium

Номер патента: EP4408060A1. Автор: Liangang Chi. Владелец: Beijing Xiaomi Mobile Software Co Ltd. Дата публикации: 2024-07-31.

Low-carbon power system oscillation suppression method based on energy storage power station

Номер патента: US12095267B1. Автор: BO Yang. Владелец: Changsha University. Дата публикации: 2024-09-17.

High-throughput sequencing method based on internal reference of known tag

Номер патента: EP4438741A1. Автор: designation of the inventor has not yet been filed The. Владелец: DAAN GENE Co Ltd. Дата публикации: 2024-10-02.

Electronic device and method for constructing digital twin based on commercial network base station data

Номер патента: EP4460067A1. Автор: Seungmo Kim,Seowoo JANG,Yujin NAM,Haksung KIM,Gyeongmin PYEON. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2024-11-06.

Automatic control system of a cutting machine and control method based on machine vision and sensors interaction

Номер патента: RU2681006C1. Автор: Вэй Ли,Гунбо Чжоу,Сунъюн ЛЮ,Хунсян ЦЗЯН,Ган ШЭНЬ,Вэй ТАН,Хуэйфу ЦЗИ,Шуйлинь ВАН. Владелец: Сюйчжоу Чжижунь Майнинг Эквипмент Сайнз Энд Технолоджи Ко., Лтд.. Дата публикации: 2019-03-01.

Coding/decoding method based on layer set and video coder/decoder using smoothing prediction

Номер патента: RU2355126C2. Автор: Воо-Дзин ХАН,Кио-Хиук ЛИ,Со-янг КИМ,Тэмми ЛИ. Владелец: САМСУНГ ЭЛЕКТРОНИКС КО., ЛТД.. Дата публикации: 2009-05-10.

System architecture method and computer program product for managing telecommunication networks

Номер патента: CA2535440C. Автор: Danilo Gotta,Marco Ughetti,Giuseppe Covino. Владелец: Telecom Italia SpA. Дата публикации: 2012-10-09.

Psychomotor ability assessment method based on multi-target tracking paradigm

Номер патента: LU502533B1. Автор: Lei Wang,JIANJUN WU,Wei Tan,Shuo Wang,Shan GAO,Zhiyang Zhang,Kengrui SHAO. Владелец: Univ Civil Aviation China. Дата публикации: 2023-02-24.

Train movement authorization method based on vehicle-to-vehicle cooperation

Номер патента: US12024212B2. Автор: XIANG Chen,Tingkai Xia,Ke Cui,Xinjun Lv. Владелец: Casco Signal Ltd. Дата публикации: 2024-07-02.

Wavelet transform apparatus and method based on prediction-update lifting scheme, and adaptive prediction apparatus and method and recording medium for the same

Номер патента: US20110182358A1. Автор: Jinwoo Jung,Hayoon Kim,Yungho Choi,Yoonsik Choe,Yonggoo Kim,Byongho Kim. Владелец: SK TELECOM CO LTD. Дата публикации: 2011-07-28.

Access control method based on zero-trust security, device, and storage medium

Номер патента: US20230224167A1. Автор: Yang Yu,Lianying Wang,Chuanda DING. Владелец: Tencent Cloud Computing Beijing Co Ltd. Дата публикации: 2023-07-13.

Drying apparatus and method based on supercritical fluid

Номер патента: US20240363370A1. Автор: BIN Li,HUI Wang,Jun Wang,Jian Wang,XIN ZHAO,Bin He,Xiaoyan Zhang,Fuping CHEN,Xiaofeng Tao,Yingnan Sun,Shena JIA,Zhenming Chu,Deyun Wang. Владелец: ACM Research Shanghai Inc. Дата публикации: 2024-10-31.

Security information interaction system, device and method based on active command of secure carrier

Номер патента: US09985990B2. Автор: YU Zhou,Wei Guo,Hongfeng Chai,Zhijun Lu,Shuo He,Dingzhou Li. Владелец: China Unionpay Co Ltd. Дата публикации: 2018-05-29.

Method of accessing services, systems and devices based on wlan access authentication

Номер патента: RU2573212C2. Автор: Лиюн ЛЮ,Джин ВАН,Джианмин ЛАН,Чунью ШАО,Ксиань ДУАН,Бин ВЭЙ. Владелец: Чайна Мобайл Коммуникейшенс Корпорейшн. Дата публикации: 2016-01-20.

Method, base station, user equipment and system for cooperation mode activation

Номер патента: RU2551456C2. Автор: Лей ЧЖАН,Хуа Чжоу,Синь Ван,Хайбо СЮЙ. Владелец: Фудзицу Лимитед. Дата публикации: 2015-05-27.

COSMETIC METHOD BASED ON APPLICATION OF AQUEOUS EXTRACT FROM Chromolaena Odorata

Номер патента: RU2283083C2. Автор: Роберт Марк ДОНОВАН. Владелец: Унилевер Н.В.. Дата публикации: 2006-09-10.

Method and system for using digital twins for determining need for maintenance of an elevator

Номер патента: US20230356975A1. Автор: Mari Zakrzewski,Matti Laakso,Olli MALI,Otto Pekander. Владелец: Kone Corp. Дата публикации: 2023-11-09.

Method and system for using digital twins for determining need for maintenance of an elevator

Номер патента: EP4313828A1. Автор: Mari Zakrzewski,Matti Laakso,Olli MALI,Otto Pekander. Владелец: Kone Corp. Дата публикации: 2024-02-07.

Systems and methods for implementing digital twin with a live streaming map

Номер патента: US12021716B2. Автор: Brian Mengwasser. Владелец: Dish Wireless LLC. Дата публикации: 2024-06-25.

Random access method, base station and terminal

Номер патента: EP3634072A1. Автор: Pengfei Li,Bin Jian,Jing Tu. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2020-04-08.

Remote surgery system and control method based on laparoscopic surgery robot

Номер патента: EP4268756A1. Автор: Mengxu ZHAN,Haifeng PANG. Владелец: Harbin Intelligent Surgery Equipment Co Ltd. Дата публикации: 2023-11-01.

Cognitive SIMO network access method based on cooperative relay

Номер патента: US9247551B2. Автор: Yang Yang,Yuming Zhang,Jinlong Wang,Qihui Wu. Владелец: PLA UNIVERSITY OF SCIENCE AND TECHNOLOGY. Дата публикации: 2016-01-26.

Communication method, base station and user terminal

Номер патента: US20180167814A1. Автор: Masato Fujishiro,Yushi NAGASAKA. Владелец: Kyocera Corp. Дата публикации: 2018-06-14.

Generator circuit breaker control method based on short-circuit fault current symmetry

Номер патента: US20240235180A1. Автор: YI WU,FEI Yang,Jun Wang,Yifei Wu,Mingzhe RONG,Chunping NIU,Jinru Sun. Владелец: Xian Jiaotong University. Дата публикации: 2024-07-11.

Virtual reality and digital twin-based security testcase execution

Номер патента: US20240039945A1. Автор: Sarbajit K. Rakshit,Jeremy R. Fox,Tushar Agrawal,Christian Compton. Владелец: International Business Machines Corp. Дата публикации: 2024-02-01.

Image processing method based on inter prediction mode, and device therefor

Номер патента: US20220094965A1. Автор: Hyeongmoon JANG,Junghak NAM,Naeri PARK. Владелец: LG ELECTRONICS INC. Дата публикации: 2022-03-24.

Image processing method based on inter prediction mode, and device therefor

Номер патента: US20210021860A1. Автор: Hyeongmoon JANG,Junghak NAM,Naeri PARK. Владелец: LG ELECTRONICS INC. Дата публикации: 2021-01-21.

Image processing method based on inter prediction mode, and device therefor

Номер патента: US20230209082A1. Автор: Hyeongmoon JANG,Junghak NAM,Naeri PARK. Владелец: LG ELECTRONICS INC. Дата публикации: 2023-06-29.

Decoding apparatus and method based on variable error correction value

Номер патента: WO2009078644A1. Автор: Dae-Ig Chang,Kijoon Lee,Euna Choi,Habong Jung. Владелец: Electronics and Telecommunications Research Institute. Дата публикации: 2009-06-25.

Method of fabricating porous ceramic structures based on calcium phosphates, alumina or zirconia

Номер патента: EP2212261A2. Автор: Claudia Marina Souto Ranito Lourenço. Владелец: Individual. Дата публикации: 2010-08-04.

Switching type control method based on double loop predictive control

Номер патента: US20200304040A1. Автор: Guiping DU,Zhifei LIU,Jiajian Li. Владелец: South China University of Technology SCUT. Дата публикации: 2020-09-24.

Performing radio frequency matching control using a model-based digital twin

Номер патента: WO2022140431A1. Автор: Tao Zhang,Upendra Ummethala. Владелец: Applied Materials, Inc.. Дата публикации: 2022-06-30.

Testing method, device and system based on softsim

Номер патента: US20230397022A1. Автор: Xiangxian ZHENG. Владелец: SAMSUNG ELECTRONICS CO LTD. Дата публикации: 2023-12-07.

Method Of Architecture Design and Construction

Номер патента: US20240218691A1. Автор: Michael Peter Simpson. Владелец: Owner Gateways LLC. Дата публикации: 2024-07-04.

System and method for managing methods of communication between data processing systems using a digital twin

Номер патента: US20240365174A1. Автор: Tomer Kushnir,Maxim Balin,Ofir Ezrielev. Владелец: Dell Products LP. Дата публикации: 2024-10-31.

Cameras and image obtaining methods based on controlling brightness adjustment parameters

Номер патента: US12108197B2. Автор: Jun Liu,HAN Pan,Zhipeng Deng,Shengkai YANG. Владелец: Huawei Technologies Co Ltd. Дата публикации: 2024-10-01.

Backpack-type mobile base station system and method based on TVWS and satellite backhaul

Номер патента: US09998900B1. Автор: Ho Sang Yoo. Владелец: Innonet Co ltd. Дата публикации: 2018-06-12.

Image compression method based on local dynamic quantizing

Номер патента: US09967565B2. Автор: Xin He,Jidong Huang,Yunbo XUE. Владелец: Primesom Technology (shanghai) Ltd. Дата публикации: 2018-05-08.

Methods, devices, systems, architectures and interfaces for transmitting uplink control information (uci) over a shared uplink data channel

Номер патента: RU2769716C2. Автор: Моон-Ил ЛИ,Эрдем БАЛА,Шахрух НАЙЕБ НАЗАР. Владелец: Идак Холдингз, Инк.. Дата публикации: 2022-04-05.

Pozdnyakov's psychoemotional relaxation method based on audiovisual exposure

Номер патента: RU2454251C1. Автор: Сергей Васильевич Поздняков. Владелец: Сергей Васильевич Поздняков. Дата публикации: 2012-06-27.

Compositions and methods based on neutralizing antibodies delivered intranasally for improved therapeutic effectiveness

Номер патента: RU2701694C2. Автор: Майкл ВИТТЕКИНД,Адам ВИГИЛ. Владелец: Контрафект Корпорейшн. Дата публикации: 2019-09-30.

Ontology-based risk propagation over digital twins

Номер патента: US20230328096A1. Автор: Dan Klein,Eitan Hadar,Gal Engelberg,Adrian Kuboszek. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-10-12.

Ontology-based risk propagation over digital twins

Номер патента: EP4258601A1. Автор: Dan Klein,Eitan Hadar,Gal Engelberg,Adrian Kuboszek. Владелец: Accenture Global Solutions Ltd. Дата публикации: 2023-10-11.

Systems and methods for active road surface maintenance with cloud-based mobility digital twin

Номер патента: US20240166230A1. Автор: Rohit Gupta,Ziran Wang,Kyungtae Han. Владелец: Toyota Motor Engineering and Manufacturing North America Inc. Дата публикации: 2024-05-23.

Method and system for creating a digital twin of a network, dtn

Номер патента: WO2023193937A1. Автор: Xi Li,Marco Liebsch,Girma Mamuye Yilma. Владелец: NEC Laboratories Europe GmbH. Дата публикации: 2023-10-12.

Measurement methods based on state switching, electronic device, and storage medium

Номер патента: EP4106384A1. Автор: Haitao Li. Владелец: GUANGDONG OPPO MOBILE TELECOMMUNICATIONS CORP LTD. Дата публикации: 2022-12-21.

Multi-channel liquid drop formation device and method based on macroporous perfusion microsphere

Номер патента: LU502120B1. Автор: Bo Zhang,Xiaofei Wang. Владелец: Jinjiang Jingchun Tech Co Ltd. Дата публикации: 2022-11-21.

Finite time speed control method for permanent magnet synchronous motor based on fast integral terminal sliding mode and disturbance estimation

Номер патента: US12088224B2. Автор: Jianyi Zhang,Ximing SUN. Владелец: Dalian University of Technology. Дата публикации: 2024-09-10.

Automatic tool setting system and method based on spectral confocal displacement sensor

Номер патента: US12011795B2. Автор: MING Chen,Xianghui Huang,Qinglong AN,Weiwei MING,Xiaojiang CAI,Ruhao ZHOU. Владелец: Shanghai Institute Of Aerospace Control Technology. Дата публикации: 2024-06-18.

Digital signature service system based on hash function and method thereof

Номер патента: US09819494B2. Автор: Hae-Il Jung,Jong-Uk Choi,Ho-il RYU. Владелец: Markany Inc. Дата публикации: 2017-11-14.

Method based on scheduling connection with support of differentiated services in multi-interval wireless networks

Номер патента: RU2444852C2. Автор: Лука КОЛЕТТИ,Симоне РЕДАНА. Владелец: Нокиа Сименс Нетворкс ГмбХ унд Ко.КГ. Дата публикации: 2012-03-10.

Selective fidelity rates for network traffic replication by a digital twin device

Номер патента: US20230131255A1. Автор: Jay Kemper Johnston,David C. White, Jr.,Magnus Mortensen. Владелец: Cisco Technology Inc. Дата публикации: 2023-04-27.

Selective fidelity rates for network traffic replication by a digital twin device

Номер патента: US20220200917A1. Автор: Jay Kemper Johnston,David C. White, Jr.,Magnus Mortensen. Владелец: Cisco Technology Inc. Дата публикации: 2022-06-23.

Bottom-up multilayer network recovery method based on root-cause analysis

Номер патента: US20110320857A1. Автор: Ho Young Song,Choon Hee Kim,Hyung Seok Chung,Young Wook Cha,Tae Hyun Kwon,You Hyeon Jeong,Jin Nyun Kim. Владелец: Electronics and Telecommunications Research Institute ETRI. Дата публикации: 2011-12-29.

Inter-frame prediction method based on merge with motion vector difference (mmvd) mode, video coding method, related device and apparatus

Номер патента: WO2021032206A1. Автор: Cheng Fang,Dong Jiang,Jun Yin,Jucai LIN,Feiyang ZENG. Владелец: ZHEJIANG DAHUA TECHNOLOGY CO., LTD.. Дата публикации: 2021-02-25.