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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 12389. Отображено 100.
05-01-2012 дата публикации

Information processing apparatus, three-dimensional position calculation method, and program

Номер: US20120002841A1
Автор: Kazuki Takemoto, Shinichi Aratani, Takashi Aso
Принадлежит: Canon Inc

An information processing apparatus includes a region segmentation unit configured to segment each of a plurality of images shot by an imaging apparatus for shooting an object from a plurality of viewpoints, into a plurality of regions based on colors of the object, an attribute determination unit configured to determine, based on regions in proximity to intersections between scanning lines set on the each image and boundary lines of the regions segmented by the region segmentation unit in the each image, attributes of the intersections, a correspondence processing unit configured to obtain corresponding points between the images based on the determined intersections' attributes, and a three-dimensional position calculation unit configured to calculate a three-dimensional position of the object based on the obtained corresponding points.

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Номер записи: 1
16-02-2012 дата публикации

System for adaptive displays

Номер: US20120038751A1
Автор: Chang Yuan, Scott J. Daly
Принадлежит: Sharp Laboratories of America Inc

A display includes an integrated imaging sensor and a plurality of pixels. The imaging sensor integrated within the display includes a plurality of individual sensors each of which provides an output. The content of the display is modified based upon the sensed content.

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Номер записи: 2
22-03-2012 дата публикации

Photographing device and controlling method thereof, and three-dimensional information measuring device

Номер: US20120069149A1
Автор: Tomonori Masuda
Принадлежит: Fujifilm Corp

To make it easy to recognize that pixel resolving power is changed during photography operation. A first camera and a second camera photograph two perspective images. A pixel resolving power calculation section 31 calculates pixel resolving power for photographing the two perspective images, based on a focal length, a base length, an object distance and a pixel size. In a reference pixel resolving power memorizing section 54 , reference pixel resolving power is memorized. In a display section 25 , the calculated pixel resolving power is displayed. A display control section 52 performs normal display of the pixel resolving power when the pixel resolving power is maintained to be no less than reference pixel resolving power, and performs highlighting display of the pixel resolving power when the pixel resolving power became a value lower than the reference pixel resolving power during photography operation.

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Номер записи: 3
24-05-2012 дата публикации

Method for geo-referencing of optical remote sensing images

Номер: US20120127028A1
Автор: Peter Reinartz, Richard Bamler, Sahil Suri
Принадлежит: Deutsches Zentrum fuer Luft und Raumfahrt eV

In the method for geo-referencing of optical remote sensing images of an area of the earth's surface, the geo-referencing is corrected based on an SAR image which is geo-referenced.

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Номер записи: 4
21-06-2012 дата публикации

Techniques for atmospheric and solar correction of aerial images

Номер: US20120154584A1
Автор: David Simons, Ido Omer, Leon Rosenshein, Robert Ledner, Wolfgang Schickler, Yuxiang Liu
Принадлежит: Microsoft Corp

Techniques for atmospheric and solar correction of aerial images are described. An apparatus may comprise an atmospheric and solar component arranged for execution by a logic device and operative to correct solar and atmosphere artifacts from an aerial image. The atmospheric and solar component may comprise an image information component operative to generate an image record for each aerial image of a group of aerial images, the image record comprising statistical information and image context information for each aerial image, a filter generation component operative to generate an atmospheric filter and a solar filter from the statistical information and the image context information stored in the image records, and an image correction component operative to correct atmospheric and solar artifacts from the aerial image using the respective atmospheric filter and solar filter. Other embodiments are described and claimed.

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Номер записи: 5
28-06-2012 дата публикации

Wide-Angle Image Pickup Unit And Measuring Device

Номер: US20120162360A1
Автор: Fumio Ohtomo, Hitoshi Otani, Kaoru Kumagai
Принадлежит: Topcon Corp

The invention provides a wide-angle image pickup unit, comprising at least two cameras ( 4 a and 4 b ) to take digital images, wherein the two cameras are arranged in such a manner that optical axes ( 11 a and 11 b ) of the two cameras cross perpendicularly each other on a same plane and images of wide field angle α with the crossing point O as a center enable to be acquired, and wherein parts of field angles of the two cameras are superimposed on each other and an overlapping portion is formed by the two images superimposed on each other, and stereoscopic measurement can be performed based on the two images of the overlapping portion.

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Номер записи: 6
05-07-2012 дата публикации

Flight Control System For Flying Object

Номер: US20120173053A1
Автор: Fumio Ohtomo, Hitoshi Otani
Принадлежит: Topcon Corp

A flight control system for a flying object comprises a flying object, a navigating means provided in the flying object, a position measuring unit 17 , a flight control unit 18 for controlling the navigating means, and a main arithmetic control unit 19 for controlling the position measuring unit and the flight control unit, and in the flight control system for a flying object, the position measuring unit has a GPS device 23 for measuring a ground coordinate of the flying object and a vertical camera 13 for taking a digital image below the flying object and measures an altitude of the flying object based on images at two points taken by the vertical camera, on ground coordinates of the two points measured by the GPS device, and on a focal length of the vertical camera, and the main arithmetic control unit controls the navigating means via the flight control unit based on the measured altitude and makes the flying object fly at a predetermined altitude.

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Номер записи: 7
26-07-2012 дата публикации

Handheld global positioning system device

Номер: US20120188122A1
Автор: Alexander Gribkov, Javad Ashjaee, Lev B. Rapoport, Mikhail GRIBKOV
Принадлежит: Javad GNSS Inc

A handheld GNSS device includes a housing, handgrips integral to the housing for enabling a user to hold the device, and a display screen integral with the housing. The device has a GNSS antenna and a communication antenna, both integral with the housing. The GNSS antenna receives position data from GNSS satellites. The communication antenna receives positioning assistance data from a base station. The GNSS antenna has a first antenna pattern, and the communication antenna has a second antenna pattern. The first and second antenna patterns are substantially separated. Coupled to the GNSS antenna, within the housing, is at least one receiver. Further, the device includes, within the housing, orientation circuitry for generating orientation data, imaging circuitry for obtaining image data, and positioning circuitry for determining a position for the point of interest based on the position data, the positioning assistance data, the orientation data, and the image data.

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Номер записи: 8
26-07-2012 дата публикации

Autonomous decision system for selecting target in observation satellites

Номер: US20120188372A1
Автор: Suhail Aldhafri, Tarik Ozkul
Принадлежит: Tarik Ozkul

The invention uses plurality of forward-looking preview cameras each looking at different nadir angle viewpoint to get cloud information from approaching target areas. The invention uses fuzzy logic system and other decision mechanisms to decide which target images should be acquired in which particular sequence and when the target image acquisition should start. The invention intends to give autonomous decision capability to agile earth observation satellites to make decision on their own to get the highest yield of quality images of target areas.

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Номер записи: 9
11-10-2012 дата публикации

Method and surveying system for noncontact coordinate measurement on an object surface

Номер: US20120257017A1
Автор: Benedikt Zebhauser, Bo Pettersson, Knut Siercks
Принадлежит: LEIGA GEOSYSTEMS AG

Noncontact coordinate measurement. With a 3D image recording unit, a first three-dimensional image of a first area section of the object surface is electronically recorded in a first position and first orientation, the first three-dimensional image being composed of a multiplicity of first pixels, with which in each case a piece of depth information is coordinated. First 3D image coordinates in an image coordinate system are coordinated with the first pixels. The first position and first orientation of the 3D image recording unit in the object coordinate system are determined by a measuring apparatus coupled to the object coordinate system by means of an optical reference stereocamera measuring system. First 3D object coordinates in the object coordinate system are coordinated with the first pixels from the knowledge of the first 3D image coordinates and of the first position and first orientation of the 3D image recording unit.

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Номер записи: 10
22-11-2012 дата публикации

Stereo camera

Номер: US20120293633A1
Автор: Hiroshi Yamato
Принадлежит: KONICA MINOLTA INC

The present invention relates to a stereo camera which includes: a main camera which photographs a first image; a sub-camera which has camera parameters different from those of the main camera and photographs a second image; a distance information acquiring part which associates each pixel in the first and second images and acquires distance information including parallax information; and a right/left image generating part which generates a stereo view image based on one of the first and second images and the distance information.

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Номер записи: 11
27-12-2012 дата публикации

Mapping of a contour shape to an x and y coordinate system

Номер: US20120327124A1
Автор: Clifford Hatcher, Sajjad Hussain Baloch, Yakup Genc
Принадлежит: Siemens Energy Inc

A method for determining geometric properties of a target shape such as a shape of a perimeter of a strut shield ( 36 ) for use in a gas turbine ( 10 ). The method includes obtaining a digital image of at least a portion of a first object including a first feature ( 164 ) ( 106 ). The image including the first feature ( 164 ) is displayed on a display device ( 108 ). During a reconstruction process, one or more control points ( 168 A, 168 B, 168 C, 168 D) are associated with feature points ( 164 A, 164 B, 164 C) along an extent of the displayed first feature ( 164 ) ( 109 ). Using the associated one or more control points ( 168 A, 168 B, 168 C and 168 D), a data file is created that corresponds to the first feature ( 164 ) ( 114 ). The data file includes geometric properties of the feature points ( 164 A, 164 B, 164 C).

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Номер записи: 12
28-03-2013 дата публикации

Method and apparatus for generating final depth information related map that is reconstructed from coarse depth information related map through guided interpolation

Номер: US20130077852A1
Автор: Yu-Lin Chang, Yu-Pao Tsai
Принадлежит: MediaTek Inc

A method for generating a final depth information related map includes the following steps: receiving a coarse depth information related map, wherein a resolution of the coarse depth information related map is smaller than a resolution of the final depth information related map; and outputting the final depth information related map reconstructed from the coarse depth information related map by receiving an input data and performing a guided interpolation operation upon the coarse depth information related map according to the input data.

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Номер записи: 13
18-04-2013 дата публикации

OPTICAL MOTION TRACKING OF AN OBJECT

Номер: US20130093866A1
Автор: Ohlhues Anders, Thomsen Carsten
Принадлежит: RIGSHOSPITALET

The present invention relates to a system and a method for monitoring/tracking the movement of an object in a location which is difficult to access, such as the movement of a patient in a clinical MRI scanner. This is achieved by an optical motion tracking system for determining the movement of an object at least partly located in a volume of difficult access and/or at least partly located in an electromagnetic field, said system comprising a borescope for imaging a pattern on the object or a surface part of the object with a camera, said pattern or surface part located adjacent to a distal end of the borescope and said camera attached to a proximal end of said borescope, and image processing means for calculating the movement of said pattern or surface part relative to the distal end of the borescope based on a plurality of frames/images captured by the camera. The invention further relates to the use of a borescope for motion tracking of an object and a marker plate suitable for use in the motion tracking system. 154.-. (canceled)55. An optical motion tracking system for determining the movement of an object at least partly located in a volume of difficult access and/or at least partly located in an electromagnetic field , said system comprising:a borescope for imaging a pattern on the object or a surface part of the object in a camera, said pattern or surface part located adjacent to a distal end of the borescope and said camera attached to a proximal end of said borescope, andimage processing means for calculating the movement of said pattern or surface part relative to the distal end of the borescope based on a plurality of frames/images captured by the camera.5653. The system according to claim , wherein the pattern is defined by at least one marker , at least two markers , at least three markers or more than three markers.5754. The system according to claim , wherein one or more markers are disk shaped.5854. The system according to claim , wherein at least ...

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Номер записи: 14
02-05-2013 дата публикации

POSITION AND ORIENTATION MEASUREMENT METHOD AND POSITION AND ORIENTATION MEASUREMENT APPARATUS

Номер: US20130108112A1
Автор: Aratani Shinichi, Kotake Daisuke, SATOH KIYOHIDE
Принадлежит: CANON KABUSHIKI KAISHA

Indices allocated or set on an object are detected from sensed images of frames, which are time-serially sensed by an image sensing device. In association with each index detected from the sensed image of the frame of interest, a detection condition from frames before the frame of interest is acquired. According to the acquired detection condition of the index, the reliability of this index is calculated. The position and orientation of the object or the image sensing device are calculated using at least information associated with the image coordinates of the detected indices and the reliabilities of the indices. 1an input step of inputting sensed images of respective frames time-serially sensed by an image sensing device;a detection step of detecting indices allocated or set on an object from each of the sensed images;an acquisition step of acquiring, in association with each of the indices detected in the sensed image of a frame of interest, a detection condition from frames before the frame of interest;a reliability calculation step of calculating a reliability of the index according to the detection condition of that index acquired in the acquisition step; anda position and orientation calculation step of calculating a position and orientation of the object or the image sensing device using at least information associated with image coordinates of the respective indices detected in the detection step and the reliabilities of the indices calculated in the reliability calculation step.. A position and orientation measurement method, comprising: This application is a continuation of application Ser. No. 11/944,998, filed Nov. 26, 2007, the entire disclosure of which is hereby incorporated by reference.1. Field of the InventionThe present invention relates to a technique for improving the precision and stability of viewpoint position and orientation measurement.2. Description of the Related ArtIn recent years, studies about mixed reality (MR) that aims at seamless ...

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Номер записи: 15
02-05-2013 дата публикации

POSITION/ORIENTATION MEASUREMENT APPARATUS, MEASUREMENT PROCESSING METHOD THEREOF, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM

Номер: US20130108116A1
Автор: Suzuki Masahiro, Uchiyama Shinji
Принадлежит: CANON KABUSHIKI KAISHA

A position/orientation measurement apparatus inputs the two-dimensional image of a measurement object captured by an image capturing apparatus, obtains the distance data of the measurement object measured by a distance sensor, detects an image feature of the measurement object from the two-dimensional image, determines the state of the measurement object, sets, based on the determined state, a usage mode regarding the image feature and the distance data when measuring the position/orientation, and measures the position/orientation of the measurement object in accordance with the set usage mode. 1. A position/orientation measurement apparatus for measuring a position/orientation of a measurement object , characterized by comprising:input means for inputting a two-dimensional image of the measurement object captured by an image capturing apparatus;obtaining means for obtaining distance data of the measurement object measured by a distance sensor;detection means for detecting an image feature of the measurement object from the two-dimensional image;determination means for determining a state of the measurement object;mode setting means for setting, based on the state determined by said determination means, a usage mode regarding the image feature and the distance data when measuring the position/orientation; andmeasurement means for measuring the position/orientation of the measurement object in accordance with the usage mode set by said mode setting means.2. The apparatus according to claim 1 , characterized in that said determination means determines a shape of the measurement object as the state of the measurement object.3. The apparatus according to claim 2 , characterized by further comprising holding means for holding information representing a three-dimensional shape model of the measurement object claim 2 ,wherein said determination means determines a shape of the three-dimensional shape model as the shape of the measurement object.4. The apparatus according to ...

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Номер записи: 16
09-05-2013 дата публикации

STEREO DISTANCE MEASUREMENT APPARATUS AND STEREO DISTANCE MEASUREMENT METHOD

Номер: US20130114887A1
Автор: Kurokawa Hisashi, Nanri Takuya, Nishimura Hirofumi
Принадлежит: Panasonic Corporation

Provided is a stereo distance measurement apparatus wherein a camera image itself is adjusted to correct the blur, thereby preventing the distance measurement time from being long, while improving the precision of disparity detection. In the apparatus (), a blur adjusting unit () uses a filter to tailor the blur of one of two images used by a disparity measuring unit (), to the blur of the other which is weaker. A camera image itself is adjusted, whereby the blur can be corrected. Moreover, tailoring the blur of the one image to the blur of the other image which is weaker allows an application of the filter, which is a simple processing, to cause the blurs of the images used in the disparity detection, to coincide with each other. Therefore, the precision of disparity detection can be improved, while the distance measurement can be performed at a high speed. 16-. (canceled)7. A stereo ranging apparatus that calculates the distance to a target using a first image and a second image of the target , the apparatus comprising:a filter storage section that stores blur adjusting filter coefficients corresponding to combinations of image heights of the first image and image heights of the second image;a blur adjusting section that acquires a blur adjusting filter coefficient that corresponds to a combination of an image height of an image of the target in the first image and an image height of an image of the target in the second image from the filter storage section, and adjusts the blur of sharper one of the first image and the second image to the blur of the other image that is more blurred, using the acquired blur adjusting filter coefficient;a disparity measuring section that measures disparity based on the image with the adjusted blur and the image with the unadjusted blur among the first image and the second image; anda distance calculation section that calculates the distance to the target based on the disparity.8. The stereo ranging apparatus according to wherein ...

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Номер записи: 17
16-05-2013 дата публикации

IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD

Номер: US20130121537A1
Автор: Monobe Yusuke, Yamada Hitoshi
Принадлежит:

This image processing apparatus is an image processing apparatus for measuring a subject distance using a plurality of captured images acquired by capturing the same subject in a plurality of imaging states in succession of time, and includes a target motion amount estimation unit that estimates a target motion amount representing an amount of shift in subject position between first and second images among the captured images, the first image being captured in a first imaging state and a second image being captured in a second imaging state different from the first imaging state, a corrected image generation unit that generates a corrected image by performing motion compensation on the second image based on the target motion amount, and an image processing unit that performs image processing such as measuring a subject distance or generating an HDR image, using the first image and the corrected image. 1. An image processing apparatus for measuring a subject distance using a plurality of captured images acquired by capturing the same subject in a plurality of focus states , the image processing apparatus comprising:a target motion amount estimation unit configured to estimate a target motion amount that represents an amount of shift in a position of the subject between a first image and a second image among the captured images, the first image being captured in a first focus state, and the second image being captured in a second focus state different from the first focus state;a corrected image generation unit configured to generate a corrected image by performing motion compensation on the second image based on the target motion amount; anda subject distance measurement unit configured to measure a subject distance for the first image based on a correlation value in out-of-focus amount between the first image and the corrected image.2. The image processing apparatus according to claim 1 ,wherein the image processing apparatus receives the first image, the second ...

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Номер записи: 18
30-05-2013 дата публикации

System for Space-based Imaging in Three Dimensions

Номер: US20130135443A1
Автор: Francis Martinerie, Stephane Houzelle
Принадлежит: Thales SA

A system for space-based imaging in three dimensions comprises: at least two satellites in a geocentric orbit in the same orbital plane, a satellite being equipped with equipment for optical imaging in two dimensions and means for transmitting to the ground the images in two dimensions; at least one data receiving station on the ground, connected to a communications network; at least one centre for processing the images received in two dimensions from the said satellites in order to create resulting images in three dimensions and to broadcast the said resulting images in three dimensions, said processing centre being connected to the said communications network; and, means for controlling said satellites such that a geographical area of the Earth of which images are to be taken is seen under an angle of incidence with respect to the nadir greater than a minimum threshold and/or less than a maximum threshold.

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Номер записи: 19
27-06-2013 дата публикации

Method and Device for Detecting Distance, Identifying Positions of Targets, and Identifying Current Position in Smart Portable Device

Номер: US20130163824A1
Автор: Chen Shao-Fong, Hsieh Sheng-Ta
Принадлежит: WISTRON CORPORATION

An electronic device for recognizing a position of a target object in a smart portable device includes a distance detection device for determining a distance between the smart portable device and the target object according to an image of the target object, a direction determination unit for acquiring a direction from the smart portable device to the target object, a positioning unit for acquiring coordinate information of a current position of the smart portable device, and a determination unit for determining the position of the target object according to the distance between the smart portable device and the target object, the direction from the smart portable device to the target object and the coordinate information of the current position of the smart portable device. 1. An electronic device for recognizing a position of a target object in a smart portable device comprising:a distance detection device, for determining a distance between the smart portable device and the target object according to an image of the target object;a direction determination unit, for acquiring a direction from the smart portable device to the target object;a positioning unit, for acquiring coordinate information of a current position of the smart portable device; anda determination unit, for determining the position of the target object according to the distance between the smart portable device and the target object, the direction from the smart portable device to the target object and the coordinate information of the current position of the smart portable device.2. The electronic device of claim 1 , wherein the distance detection device comprises:an image acquisition unit, for acquiring the image of the target object;a measurement unit, for calculating a length of a side of the target object in the image;an estimation unit, for acquiring a predicted length of the side of the target object; anda logic unit, for determining the distance between the smart portable device and the ...

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Номер записи: 20
04-07-2013 дата публикации

Disparity estimation depth generation method

Номер: US20130170736A1
Автор: Cheng-Hao Chen, Jiun-In Guo, Kuan-Hung Chen
Принадлежит: NATIONAL CHUNG CHENG UNIVERSITY

A disparity estimation depth generation method, wherein after inputting an original left map and an original right map in a stereo color image, compute depth of said original left and right maps, comprising following steps: perform filtering of said original left and right maps, to generate a left map and a right map; perform edge detection of an object in said left and right maps, to determine size of at least a matching block in said left and said right maps, based on information of two edges detected in an edge-adaptive approach; perform computation of matching cost, to generate respectively a preliminary depth map, and perform cross-check to find out at least an unreliable depth region from said preliminary depth map to perform refinement; and refine errors in said unreliable depth region, to obtain correct depth of said left and said right maps.

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Номер записи: 21
18-07-2013 дата публикации

DISTANCE MEASUREMENT DEVICE AND ENVIRONMENT MAP GENERATION APPARATUS

Номер: US20130182906A1
Автор: Andou Toshiyuki, Kojo Naoki, Watanabe Seigo
Принадлежит: NISSAN MOTOR CO., LTD.

Based on an image imaged by an imaging unit (), feature points of a plurality of objects present around a vehicle are detected by a feature point detecting unit (). A first distance from the feature point to the imaging unit () is calculated based on a temporal change of the feature point. A second distance from a certain object included in the plurality of objects present in the image to the imaging unit is calculated using some pixels of the certain object. The first distance of the plurality of feature points, other than the certain feature point, simultaneously detected by the feature point detecting unit () is modified based on a ratio of the first distance and the second distance. 1. A distance measurement device , comprising:an imaging unit configured to image an image around a vehicle while the vehicle is moving;a feature point detecting unit configured to detect feature points of a plurality of objects present around the vehicle from the image imaged by the imaging unit;a first distance calculating unit configured to calculate a first distance from the feature point to the imaging unit based on a temporal change of the feature point detected by the feature point detecting unit;a second distance calculating unit configured to calculate a second distance from a certain object included in the plurality of objects present in the image to the imaging unit using some pixels of the certain object; anda scale modifying unit configured to extract a certain feature point substantially matching some pixels of the certain object from among feature points of the plurality of objects, calculate a ratio of the first distance and the second distance in the certain feature point, and modify the first distance of the plurality of feature points, other than the certain feature point, simultaneously detected by the feature point detecting unit based on the ratio.2. The distance measurement device according to claim 1 , further comprising:a projecting unit configured to project ...

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Номер записи: 22
25-07-2013 дата публикации

METHOD AND DEVICE FOR DETERMINING DISTANCES ON A VEHICLE

Номер: US20130188020A1
Автор: Abraham Steffen, Seifert Wolfgang, Wendt Axel
Принадлежит: ROBERT BOSCH GMBH

A method for determining distances for chassis measurement of a vehicle having a body and at least one wheel includes determining a center of rotation of a wheel of the vehicle by projecting a structured light pattern at least onto the wheel, recording a light pattern reflected by the wheel using a calibrated imaging sensor system, determining a 3D point cloud from the reflected light pattern, and determining the center of rotation of the wheel from the 3D point cloud. The method also includes determining a point on the body by evaluating the previously determined 3D point cloud or by evaluating a plurality of grey-scale images recorded under unstructured illumination. A height level is determined as a vertical distance between the center of rotation of the wheel and the point on the body. 1. A method for determining distances for measuring a chassis of a vehicle having a body and at least one wheel , comprising:projecting a structured light pattern at least onto the wheel and onto an area of the body surrounding the wheel;recording a light pattern reflected by the wheel with an imaging sensor system for various rotational positions of the wheel;determining a 3-D cloud diagram from the reflected light pattern; adapting a parametric surface model of the wheel to the 3-D cloud diagram for the various rotational positions of the wheel;', 'calculating the wheel normal vector for the respective rotational position of the wheel; and', 'calculating the rotational axis and therefore the center of rotation of the wheel from the spatial movement of the wheel normal vector;, 'determining a center of rotation of the wheel bydetermining a point on the body by evaluating the previously determined 3-D cloud diagram; anddetermining a ride height as a vertical distance between the center of rotation of the wheel and the point on the body.2. The method as claimed in claim 1 , wherein the determination of the point on the body by evaluating the 3-D cloud diagram includes determining ...

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Номер записи: 23
01-08-2013 дата публикации

DISTANCE MEASURING DEVICE

Номер: US20130194390A1
Автор: HIROOKA Shinichiro
Принадлежит: Hitachi, Ltd.

A distance measuring device with a patterned-infrared-light irradiator, a near-infrared-light camera, a visible-light camera, a first imaging section having spectral response characteristics in a wavelength band of visible light and a predetermined wavelength band of invisible light a second imaging section having spectral response characteristics in the wavelength band of the visible light, an invisible-light projector for projecting the invisible light of the predetermined wavelength band in an angle-of-view range of the first imaging section; an invisible-light-aided distance computing section adapted to conduct image processing of an image formed by and output from the first imaging section, a stereo distance computing section adapted to conduct stereo image processing of both the image formed by and output from the first imaging section, and an image formed by and output from the second imaging section, and a distance computation controller adapted to control computation conditions used for the invisible-light-aided distance computing section. 1. A distance measuring device comprising:first imaging means having spectral response characteristics in a wavelength band of visible light and in a predetermined wavelength band of invisible light;second imaging means having spectral response characteristics in the wavelength band of the visible light, the second imaging means having no spectral response characteristics in the predetermined wavelength band of the invisible light;invisible-light projection means adapted to project the invisible light of the predetermined wavelength band in an angle-of-view range of the first imaging means;invisible-light-aided distance computation means adapted to conduct image processing of an image formed by and output from the first imaging means, then compute a first distance to a target subject on a basis of information contained in the invisible light of the predetermined wavelength band that is projected onto the subject detected ...

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Номер записи: 24
01-08-2013 дата публикации

PREPREG PASTING STATE INSPECTION APPARATUS

Номер: US20130194415A1
Автор: Abe Shoji, Tokida Katsuo
Принадлежит: SANYO MACHINE WORKS, LTD.

Even when a pasting target body to which prepregs are pasted has a shape changed portion such as a curved portion, prepreg pasting states are accurately inspected. A prepreg pasting state inspection apparatus 2 for inspecting a gap G between prepregs 4 adjacent on a pasting target body 3 has a laser 21 for emitting slit light LA along an inclined plane so that a projected pattern X of the slit light is formed across the adjacent prepregs 4, a camera 22 for imaging an irradiation region of the laser 21, a control unit 24 as a determination unit for determining whether the gap G between the adjacent prepregs 4 is within an allowance based on a signal from the camera 22, a range sensor 23 for measuring a distance between a reference position and the irradiation region, and focus adjusting units 25 and 26 for adjusting focus positions of the camera 22 and the laser 21 based on the signal from the range sensor 23. 1. A prepreg pasting state inspection apparatus for inspecting a gap between prepregs adjacent on a pasting target body having a shape changed portion , comprising:an irradiation unit for emitting slit light along an inclined plane so that a projected pattern of the slit light is formed across the adjacent prepregs;an imaging unit for imaging an irradiation region of the irradiation unit;a determination unit for determining whether the gap between the adjacent prepregs is within an allowance based on a signal from the imaging unit;a distance measurement unit for measuring a distance between a reference position and the irradiation region; anda focus adjusting unit for adjusting a focus position of the imaging unit based on the signal from the distance measurement unit.2. The prepreg pasting state inspection apparatus according to claim 1 , whereinthe imaging unit has a movable lens that is capable of moving close to or separating from the irradiation region, andthe focus adjusting unit has a driving unit for moving the movable lens based on the signal from the ...

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Номер записи: 25
01-08-2013 дата публикации

Reduced Homography for Recovery of Pose Parameters of an Optical Apparatus producing Image Data with Structural Uncertainty

Номер: US20130194418A1
Автор: Alboszta Marek, Gonzalez-Banos Hector H., Mandella Michael J.
Принадлежит: Electronic Scripting Products, Inc.

A reduced homography H for an optical apparatus to recover pose parameters from imaged space points Pusing an optical sensor. The electromagnetic radiation from the space points Pis recorded on the optical sensor at measured image coordinates. A structural uncertainty introduced in the measured image points is determined and a reduced representation of the measured image points is selected based on the type of structural uncertainty. The reduced representation includes rays {circumflex over (r)}defined in homogeneous coordinates and contained in a projective plane of the optical apparatus. At least one pose parameter of the optical apparatus is then estimated by applying the reduced homography H and by applying a condition on the motion of the optical apparatus, the condition being consonant with the reduced representation employed in the reduced homography H. 1. A method for recovering pose parameters of an optical apparatus that images space points Ponto an optical sensor , said method comprising the steps of:{'sub': i', 'i', 'i', 'i', 'i', 'i, 'a) recording electromagnetic radiation from said space points Pon said optical sensor at measured image coordinates {circumflex over (x)},ŷof measured image points {circumflex over (p)}=({circumflex over (x)},ŷ);'}{'sub': i', 'i', 'i, 'b) determining a structural uncertainty in said measured image points {circumflex over (p)}=({circumflex over (x)},ŷ);'}{'sub': i', 'i', 'i', 'i, 'c) selecting a reduced representation of said measured image points {circumflex over (p)}=({circumflex over (x)},ŷ) by rays {circumflex over (r)}defined in homogeneous coordinates and contained in a projective plane of said optical apparatus based on said structural uncertainty; and'}{'sub': 'i', 'd) estimating at least one of said pose parameters with respect to a canonical pose by a reduced homography H using said rays {circumflex over (r)}.'}2. The method of claim 1 , wherein said structural uncertainty is due to said optical apparatus.3. The ...

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Номер записи: 26
08-08-2013 дата публикации

SINGLE CAMERA IMAGE PROCESSING APPARATUS, METHOD, AND PROGRAM

Номер: US20130201326A1
Автор: TSUJII Hiroshi
Принадлежит:

An apparatus includes a single camera and a computing terminal, and in the computing terminal, a storage means thereof stores, internal orientation parameters of the camera and actual coordinates of three feature points of a measured object, a data transfer means loads a camera image containing three feature points within a camera field of view, and a computing means performs, on camera view coordinates of the feature points in the loaded image, correction, based on the internal orientation parameters, of distortion in the image, calculates, from the camera view coordinates and the actual coordinates of the distortion-corrected feature points, a camera position and angle in a coordinate system based on the measured object during image capture, and calculates three-dimensional coordinates of the feature points in a camera-based coordinate system using a coordinate transformation with which the calculated camera position and angle during image capture are a reference position and angle. 1. A single camera image measurement processing apparatus comprising:a single camera means; andan information computing terminal including at least a computing means, a storage means, and a data transfer means; andwherein, in the information computing terminal,the storage meansstores, in advance, calculated internal orientation parameters of the camera means and distance-between-points data of three feature points of a measured object (with the three points being present on a single straight line and there being no other restrictions),the data transfer meansloads at least one image captured using the camera means and containing the three feature points within a camera field of view, andthe computing meansperforms, on camera view coordinates of the feature points in the loaded image, correction, based on the internal orientation parameters, of distortion in the image andcalculates, from the camera view coordinates of the distortion-corrected feature points and the distance-between- ...

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Номер записи: 27
22-08-2013 дата публикации

Stereo image processing device and stereo image processing method

Номер: US20130215232A1
Автор: Hisashi Kurokawa, Kensuke Maruya, Takuya Nanri
Принадлежит: Panasonic Corp

An image segmenting unit ( 401 ) in the stereo image processing device ( 100 ) extracts M (a natural number between 2 and N, inclusive) number of segmented target images wherein a first partial area within a target image has been segmented into N (a natural number of 2 or more), and also extracts M number of segmented reference images wherein a second partial area within a reference image has been segmented into N. An image concatenating unit ( 402 ) serially concatenates M data strings, each comprising a intensity value from each segmented target image, to form a first image data string and also serially concatenates M data strings, each comprising a intensity value from each segmented reference image, to form a second image data string. A filtering unit ( 403 ) and a peak position detection unit ( 104 ) calculate the disparity between the standard images and the reference images.

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Номер записи: 28
29-08-2013 дата публикации

DISTANCE MEASUREMENT APPARATUS, DISTANCE MEASUREMENT METHOD, AND CAMERA

Номер: US20130222576A1
Автор: Yamada Daisuke
Принадлежит: CANON KABUSHIKI KAISHA

A distance measurement apparatus includes an imaging lens configured to form an image of an object on an imaging plane, a solid-state image sensor configured to acquire an image based on light flux passing through a plurality of areas different from each other in an exit pupil of the imaging lens, and a calculation unit configured to calculate a distance based on a signal acquired from the solid-state image sensor. The calculation unit includes a processing unit configured to acquire a first signal in a first imaging condition by using the solid-state image sensor, a processing unit configured to acquire a second signal in a second imaging condition different from the first imaging condition by using the solid-state image sensor, and a processing unit configured to calculate a base length and a distance based on the first signal and the second signal. 1. A distance measurement apparatus comprising:an imaging lens configured to form an image of an object;a solid-state image sensor configured to acquire an image based on light flux passing through a plurality of areas different from each other in an exit pupil of the imaging lens; anda calculation unit configured to calculate a distance based on a signal acquired from the solid-state image sensor,wherein the calculation unit comprises:a processing unit configured to acquire a first signal in a first imaging condition by using the solid-state image sensor;a processing unit configured to acquire a second signal in a second imaging condition different from the first imaging condition by using the solid-state image sensor; anda processing unit configured to calculate abase length and a distance based on the first signal and the second signal.2. The distance measurement apparatus according to claim 1 , wherein the first imaging condition and the second imaging condition are set such that imaging is performed in a condition that the base length and the distance are substantially equal claim 1 , and geometric optics ...

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Номер записи: 29
29-08-2013 дата публикации

MEASUREMENT APPARATUS AND CORRECTION METHOD OF THE SAME

Номер: US20130222579A1
Автор: Jeon Jeong-Yul, Kwon Dal-An, Lee Hyun-Ki
Принадлежит: KOH YOUNG TECHNOLOGY INC.

A measurement apparatus for measuring a substrate, on which a measurement object is formed, and a correction method of the same is shown. The correction method includes measuring a reference phase by measuring a phase of a substrate for measuring the reference phase by using an image-capture part, acquiring a tilted pose of a reference plane of the measured reference phase to an image plane of the image-capture part, and calculating a height that is required to correct the reference plane with regard to the image-capture part based on the tilted pose. Therefore, based on a tilted pose of a reference phase in order to correct a reference plane being a reference of measuring a height, a measurement credibility of the measurement object may be improved. 1. A correction method of a measurement apparatus , comprising:acquiring an image by image-capturing a calibration substrate, on which a plurality of patterns are formed, with an image-capture part that has a camera and an image-capture lens;acquiring a distance information between the plurality of patterns from the acquired image;reading a reference data of the calibration substrate;acquiring a pose information of the calibration substrate by using the acquired distance information between the plurality of patterns and the distance information between the plurality of patterns in the reference data; andcalibrating the image-capture part by using the pose information and the reference data of the calibration substrate.2. The correction method of claim 1 , wherein the image-capture lens comprises a telecentric lens.3. The correction method of claim 1 , wherein acquiring a pose information comprises:determining whether a slope of the calibration substrate is positive or negative by comparing sizes of at least two patterns of the plurality of patterns.4. The correction method of claim 1 , wherein the image-capture part is calibrated by using an average value of calibration data that are acquired by measuring at least two ...

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Номер записи: 30
29-08-2013 дата публикации

METHOD OF MEASUREMENT AND APPARATUS FOR MEASUREMENT OF TOOL DIMENSIONS

Номер: US20130222580A1
Автор: Kurahashi Yasuhiro
Принадлежит: MAKINO MILLING MACHINE CO., LTD.

In the machine tool () pertaining to the present invention, the contour lines () of a tool () are displayed on a display screen (S). When an operator measuring the dimensions traces a contour line () on the display screen (S) of a touch panel () with a finger, it is possible to automatically identify, on the display screen (S), the site to be measured (i.e., the contour line ()) on the tool (). In this way, an operator can measure the dimensions of the tool () in an extremely simple manner. Additionally, it is possible to automatically measure the tool diameter or the blade position of the tool () as the operator designates a specific position on the contour line () of the tool (). Thus, with such a method for measuring the dimensions of the tool (), it is possible to easily identify an unexpected site to be measured on a tool having complex contour lines, such as a multi-stage tool. 1. A method of measurement of tool dimensions which uses an image capture device which moves relative to a tool so as to capture an image of said tool and which uses the obtained image data to measure the dimensions of said tool ,the method of measurement of tool dimensions, comprising the steps of:displaying an image including a contour of said tool which was captured by said image capture device on a display screen of the display device,detecting a teaching point, designated by touching on said image, by a contact detection device, andusing said detected teaching point as the basis to specify a measurement portion, measurement direction, or movement direction of the shape of said tool.2. The method of measurement of tool dimensions according to claim 1 , which claim 1 , in specification of said measurement portion claim 1 , measurement direction claim 1 , or movement direction claim 1 , uses a plurality of said teaching points of different positions which are consecutively detected as the basis to calculate a path of said teaching points and uses said calculated path as the basis to ...

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Номер записи: 31
05-09-2013 дата публикации

DISPLACEMENT DETECTION DEVICE AND OPERATING METHOD THEREOF

Номер: US20130229514A1
Автор: Chen Hsin-Chia, Huang Sen-Huang, Huang Yu-Hao, Kao Ming-Tsan
Принадлежит: PIXART IMAGING INC.

There is provided a displacement detection device including an image sensor, a light source, a light control unit and a processing unit. The image sensor captures image frames at a sampling frequency. The light source provides, in a speed mode, light for the image sensor in capturing the image frames. The light control unit controls the light source with the speed mode to turn on at a lighting frequency or to turn off serially. The processing unit calculates a displacement according to the image frames captured when the light source turns on to be served as an estimated displacement for an interval during which the light source turns off. There is further provided an operating method of a displacement detection device. 1. A displacement detection device , comprising:an image sensor configured to capture image frames at a sampling frequency;a light source providing, in at least one speed mode, light for the image sensor in capturing the image frames;a light control unit configured to control the light source with the speed mode to turn on at a lighting frequency or to turn off serially; anda processing unit configured to calculate a displacement according to the image frames captured when the light source turns on to be served as an estimated displacement for an interval during which the light source turns off.2. The displacement detection device as claimed in claim 1 , wherein the light source turns on corresponding to N successive image frames and next turns off corresponding to M successive image frames.3. The displacement detection device as claimed in claim 2 , wherein N is larger than or equal to 4.4. The displacement detection device as claimed in claim 2 , further comprising a transmission interface configured to output the displacement and the estimated displacement at a report rate claim 2 , wherein (M+N) is smaller than or equal to a quotient calculated by dividing a frame rate of the light source by the report rate.5. The displacement detection device as ...

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Номер записи: 32
19-09-2013 дата публикации

APPARATUS FOR MEASURING DISTANCE AND METHOD THEREOF

Номер: US20130242089A1
Автор: KIM Jun Chul, LIM Sung Hyun
Принадлежит: LG INNOTEK CO., LTD.

Disclosed are an apparatus for measuring a distance and a method thereof. The apparatus includes a camera module and a film having a reference pattern. The camera module includes an infrared LED transmission unit to transmit an infrared LED light toward the film. 1. An apparatus for measuring a distance , the apparatus comprising:a camera unit photographing an object;a light transmission unit irradiating a light onto the object;a film provided at an outlet of the light transmission unit and having a pattern allowing only a portion of light to be projected onto the object; anda module unit calculating a distance from the object by using a size of a pattern projected onto the object which is obtained from an image of the camera unit.2. The apparatus of claim 1 , wherein the pattern has at least one of a circular shape claim 1 , a triangular shape claim 1 , a rectangular shape claim 1 , and a diamond shape.3. The apparatus of claim 1 , wherein the light transmission unit transmits an infrared light.4. The apparatus of claim 2 , wherein the light transmission unit includes at least one infrared LED.5. The apparatus of claim 3 , wherein the module unit comprises:an infrared light reception unit receiving the infrared light;a measuring unit measuring the size of the pattern projected onto a surface of the object;a comparing unit comparing the measured size of the pattern with an intrinsic parameter; anda calculating unit calculating the distance based on a value detected by the comparing unit.6. The apparatus of claim 5 , wherein the infrared light reception unit includes an infrared filter.7. The apparatus of claim 5 , further comprising a display unit displaying the calculated distance data.8. The apparatus of claim 1 , wherein the size of the pattern projected onto a surface of the object is determined depending on a distance between the camera module and the object.9. The apparatus of claim 8 , wherein the size of the pattern projected onto the surface of the object ...

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Номер записи: 33
26-09-2013 дата публикации

Algorithm for adaptive downsampling to an irregular grid

Номер: US20130250105A1
Автор: Kenneth K. Ellis
Принадлежит: Exelis Inc

A method of adaptive downsampling includes the steps of: (a) receiving input data having a first spatial resolution and a first grid spacing; (b) resampling the input data using an automatically adjustable kernel; and (c) providing output data having a second spatial resolution and a second grid spacing. The second spatial resolution, advantageously, is substantially constant across the second grid spacing. The input data may include image data, and the output data may include resampled, or downsampled image data. The image data may be images of the Earth at a first spatial resolution and a first grid spacing; the output data may be resampled data of the images of the Earth at a second spatial resolution and a second grid spacing.

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Номер записи: 34
03-10-2013 дата публикации

INFORMATION PROCESSING APPARATUS THAT PERFORMS THREE-DIMENSIONAL SHAPE MEASUREMENT, INFORMATION PROCESSING METHOD, AND STORAGE MEDIUM

Номер: US20130258060A1
Автор: Kotake Daisuke
Принадлежит: CANON KABUSHIKI KAISHA

Information processing apparatus that performs three-dimensional shape measurement with high accuracy at high speed while taking into account lens distortion of a projection device. An image input unit of an information processing apparatus inputs image data of a measurement object photographed by a camera in a state where a predetermined pattern light is projected by a projector. An association unit calculates associations between coordinates on the image data of the measurement object and coordinates on image data of the predetermined pattern light. A three-dimensional coordinate calculation unit calculates a viewing vector of the camera from which lens distortion thereof has been eliminated and a viewing vector of the projector to which lens distortion thereof has been added. The calculation unit calculates coordinates of a point, in a three-dimensional space, of intersection between the camera viewing vector and the projector viewing vector, for each association. 1. An information processing apparatus comprising:an input unit configured to input image data of a target object, onto which a predetermined pattern image has been projected by a projection apparatus and which has then been photographed by an imaging apparatus;an association unit configured to provide associations between coordinates on the image data of the target object with coordinates on image data of the predetermined pattern image;a first viewing vector-deriving unit configured to derive a viewing vector on the imaging apparatus-side which has been corrected with respect to a lens distortion of the imaging apparatus;a second viewing vector-deriving unit configured to derive a viewing vector on the projection apparatus-side which has not been corrected with respect to a lens distortion of the projection apparatus; andan intersection coordinate-deriving unit configured to derive coordinates of a point, in a three-dimensional space, of intersection between the viewing vector on the imaging apparatus ...

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Номер записи: 35
24-10-2013 дата публикации

MEASURING APPLIANCE COMPRISING A DYNAMIC SIGHTING FUNCTIONALITY AND ASSOCIATED METHOD

Номер: US20130278752A1
Автор: SCHORR Christian, SCHROEDER Frank
Принадлежит: LEICA GEOSYSTEMS AG

According to the invention, the construction measuring device has a functionality for modifying the orientation of the sighting unit in a manually controllable manner, within the framework of which the orientation of the sighting unit is dynamically modified by the first or second rotary drive, according to a current direction and a current distance from a defined central anchor display point to a currently marked display point. The respective current direction defines an orientation modifying direction and the respective current distance defines an orientation modifying speed for changing the orientation of the sighting unit. 115-. (canceled)16. A measuring appliance for measuring spatial points of surfaces of a construction including interiors of buildings comprising:a base;a sighting unit, which is rotatable and pivotable relative to the base and provides distance measuring functionality, having a laser source designed to emit a laser beam in the direction of an aiming axis, and a laser light detector and also having an integrated digital camera aligned in the direction of the aiming axis;an evaluation and control unit;a display for representing an image of the camera;input means for marking display points on the display;a first and a second rotary drive make the sighting unit drivable and alignable;a spatial alignment of the sighting unit relative to the base is detectable by means of two goniometers;the evaluation and control unit is connected to the laser source, the laser light detector and also the goniometers in order to assign a detected distance to a corresponding alignment and thus to determine coordinates for spatial points, and is also connected to the camera;wherein the measuring appliance is equipped with a functionality for changing the alignment of the sighting unit in a manually controllable manner, in the context of which dynamically in a manner dependent on a constantly determined current direction and a constantly determined current distance ...

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Номер записи: 36
24-10-2013 дата публикации

Apparatus and Method for Spatially Referencing Images

Номер: US20130278755A1
Автор: Raman Arjun, Royz Gadi, Starns Alexander T.
Принадлежит:

Provided is a method of spatially referencing a plurality of images captured from a plurality of different locations within an indoor space by determining the location from which the plurality of images were captured. The method may include obtaining a plurality of distance-referenced panoramas of an indoor space. The distance-referenced panoramas may each include a plurality of distance-referenced images each captured from one position in the indoor space and at a different azimuth from the other distance-referenced images, a plurality of distance measurements, and orientation indicators each indicative of the azimuth of the corresponding one of the distance-referenced images. The method may further include determining the location of each of the distance-referenced panoramas based on the plurality of distance measurements and the orientation indicators and associating in memory the determined locations with the plurality of distance-referenced images captured from the determined location. 1. A method of spatially referencing a plurality of images captured from a plurality of different locations within an indoor space by determining the locations from which the plurality of images were captured , comprising: a plurality of distance-referenced images each captured from one location among the plurality of different locations in the indoor space and at a different azimuth from the other distance-referenced images captured from the one location;', 'a plurality of distance measurements, each distance measurement being indicative of a distance between the one location and a feature depicted in a corresponding one of the distance-referenced images;', 'a plurality of orientation indicators each indicative of the azimuth of the corresponding one of the distance-referenced images;', 'wherein each of the plurality of distance measurements is associated with the corresponding one of the distance-referenced images and one of the plurality of orientation indicators;, 'obtaining ...

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Номер записи: 37
24-10-2013 дата публикации

Sensor for Simultaneous Measurement of Thickness and Lateral Position of a Transparent Object

Номер: US20130278756A1
Автор: Anthony Brian W., Ljubicic Dean Marko
Принадлежит: Massachusetts Institute of Technology

System for measuring thickness and lateral position of a transparent object. The system includes a camera having a sensor for receiving light, the camera including an objective lens for focusing on an object plane and having an optical axis and a field of view. A source of light is provided to illuminate a surface having variations in reflected light intensity. The surface is spaced apart from the objective lens and disposed at an angle with respect to the optical axis of the objective lens. A transparent object disposed fully or partially between the objective lens and the surface will shift the position of the object plane, the shift in object plane being proportional to the thickness of the object, and the transparent object, when partially inserted between the objective lens and the surface, will focus a fraction of the light on a lower plane, this fraction of light being proportional to the fraction of the lens field of view occupied by the transparent object that is related to lateral position. 1. System for measuring thickness and lateral position of a transparent object comprising:a camera including a sensor or for receiving light the camera including an objective lens for focusing on an object plane and having an optical axis and a field of view;a source of light;a surface having variations in reflected or transmitted light intensity spaced apart from the objective lens and illuminated by the source of light and disposed at an angle with respect to the optical axis of the objection lens;whereby a transparent object disposed fully or partially between the objective lens and the surface will shift the position of the object plane, the shift in object plane being proportional to the thickness of the object, and the transparent object, when partially inserted between the object lens and the surface, will focus a fraction of the light on a second plane, this fraction of light being proportional to the fraction of the lens field of view occupied by the ...

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Номер записи: 38
24-10-2013 дата публикации

LOCATION CORRECTION APPARATUS AND METHOD

Номер: US20130279760A1
Автор: CHANG Yoon-Seop, Kim Jae-Chul, Lee Seong-Ho
Принадлежит: Electronics and Telecommunications Research Institute

Disclosed herein is a location correction apparatus and method. The location correction apparatus includes a reference object search unit for searching a pre-stored geographic object database (DB) for one or more objects corresponding to objects included in a captured image and setting a reference object to be used to correct a location among the one or more objects that have been found. A reference point extraction unit sets reference points from the set reference object. A location determination unit obtains an actual distance between the reference points and calculates a location using the actual distance, a distance between the reference points included in the captured image, and metadata of the captured image. Therefore, the present invention can improve positioning accuracy and can be applied to high-quality location-based services or space information services thanks to the improved accuracy. 1. A location correction apparatus comprising:a reference object search unit for searching a pre-stored geographic object database (DB) for one or more objects corresponding to objects included in a captured image and setting a reference object to be used to correct a location among the one or more objects that have been found;a reference point extraction unit for setting reference points from the set reference object; anda location determination unit for obtaining an actual distance between the reference points and calculating a location using the actual distance, a distance between the reference points included in the captured image, and metadata of the captured image.2. The location correction apparatus of claim 1 , wherein the reference object search unit sets an object located closest to a capturing location of the captured image claim 1 , among the found one or more objects claim 1 , as the reference object.3. The location correction apparatus of claim 1 , wherein the reference point extraction unit extracts a contour of the set reference object from the captured ...

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Номер записи: 39
31-10-2013 дата публикации

LASER LINE PROBE THAT PRODUCES A LINE OF LIGHT HAVING A SUBSTANTIALLY EVEN INTENSITY DISTRIBUTION

Номер: US20130286196A1
Автор: Atwell Paul C.
Принадлежит: FARO TECHNOLOGIES, INC.

A laser line probe (LLP) configured to measure an object is provided. The LLP includes a projector, a camera, a bracket, and an electronic circuit. The projector includes a light source, a first lens system and a continuously varying neutral density filter. The projector is configured for generating a line of light having a substantially even intensity distribution and for projecting the line of light onto the object. The camera includes a second lens system and a photosensitive array. The second lens system is configured to collect the light reflected by or scattered off the object as a first collected light and to image the first collected light onto the photosensitive array. The electronic circuit includes a processor and is configured to determine three-dimensional coordinates of a plurality of points of light projected on the object by the projector. 1. A laser line probe (LLP) configured to measure an object , the LLP comprising:a projector that includes a light source, a first lens system, and a continuously varying neutral density filter, the light source configured to emit light, the first lens system configured to receive the light and to spread out the light into a first line of light having a first intensity distribution across the first line of light, the continuously varying neutral density filter configured to convert the first line of light into a second line of light having a substantially uniform intensity distribution across the second line of light and to project the second line of light onto the object;a camera that includes a second lens system and a photosensitive array, the camera having predetermined characteristics including a focal length of the second lens system and a position of the photosensitive array relative to the second lens system, and wherein the second lens system is configured to collect the light reflected by or scattered off the object as a first collected light and image the first collected light onto the photosensitive ...

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Номер записи: 40
07-11-2013 дата публикации

THREE-DIMENSIONAL COORDINATE SCANNER AND METHOD OF OPERATION

Номер: US20130293684A1
Автор: Becker Bernd-Dietmar, Bridges Robert E.
Принадлежит:

A noncontact optical three-dimensional measuring device that includes a first projector, a first camera, a second projector, and a second camera; a processor electrically coupled to the first projector, the first camera, the second projector, and the second camera; and computer readable media which, when executed by the processor, causes the first digital signal to be collected at a first time and the second digital signal to be collected at a second time different than the first time and determines three-dimensional coordinates of a first point on the surface based at least in part on the first digital signal and the first distance and determines three-dimensional coordinates of a second point on the surface based at least in part on the second digital signal and the second distance. 1. A noncontact optical three-dimensional measuring device comprising:an assembly that includes a first projector, a first camera, a second projector and a second camera, wherein the first projector, the first camera, the second projector, and the second camera are in a fixed relation to one another, the first projector having a first light source, the first projector configured to emit onto a surface of an object a first light having at least one pattern, the first camera having a first lens and a first photosensitive array, the first camera configured to receive a first portion of the first light reflected off the surface and to produce a first signal in response, the first camera having a first field of view, the first field of view being a first angular viewing region of the first camera, the second projector having a second light source, the second projector configured to emit onto the surface of the object a second light, the second camera having a second lens and a second photosensitive array, the second camera configured to receive a second portion of the second light reflected off the surface and to produce a second signal in response, the second camera having a second field ...

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Номер записи: 41
07-11-2013 дата публикации

IMAGE MEASUREMENT APPARATUS, IMAGE MEASUREMENT METHOD AND IMAGE MEASUREMENT PROGRAM

Номер: US20130293701A1
Автор: Tani Kota
Принадлежит: CANON KABUSHIKI KAISHA

Two-dimensional measurement is allowed with a small error even in the case where a difference occurs between a measurement plane for a workpiece and a plane with calibrated external parameters. When the workpiece is gripped by a holding device , an image measurement apparatus calculates the difference between the calibration plane where the external parameters are calibrated and the measurement plane for the workpiece . The image measurement apparatus corrects the external parameters such that the calibration plane coincides with the measurement plane , and two-dimensionally measures the workpiece using the corrected external parameters. 1. An image measurement apparatus , comprising:a first camera that takes an image of a workpiece held by a holding device;a detecting device that detects a position and/or a posture of a measurement plane for the workpiece held by the holding device; anda control unit that stores external parameters of the first camera and a position and/or a posture of a calibration plane where the external parameters are calibrated, corrects the external parameters based on a detected value by the detecting device such that the positions and/or the postures of the measurement plane and the calibration plane coincide with each other, and measures a two-dimensional position and/or a posture of the workpiece from the image taken by the first camera using the corrected external parameters.2. The image measurement apparatus according to claim 1 ,wherein the detecting device is a length measuring sensor that detects a holding position of the workpiece orthogonal to the calibration plane.3. The image measurement apparatus according to claim 1 ,wherein the detecting device is a second camera that takes an image used for three-dimensionally measuring a prescribed point on the workpiece.4. The image measurement apparatus according to claim 1 ,wherein the detecting device is a contact sensor that is provided at the holding device and detects a contact point ...

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Номер записи: 42
07-11-2013 дата публикации

IMAGING APPARATUS, AND SYSTEM AND DISTANCE MEASURING DEVICE USING IMAGING APPARATUS

Номер: US20130293703A1
Автор: Imamura Norihiro
Принадлежит:

An imaging apparatus disclosed in the present application includes a lens optical system including a lens and a stop; an imaging; and an array-form optical element located between the lens optical system and the imaging device and including optical components extending in a row direction in a plane vertical to an optical axis of the lens optical system, the optical components being arrayed in a column direction in the plane. The imaging device includes pixel groups, each of which includes first pixels arrayed in the row direction and second pixels arrayed in the row direction at positions adjacent, in the column direction, to the first pixels. The pixel groups are arrayed in the column direction. Border positions between the optical components are respectively offset in the column direction with respect to corresponding border positions between the pixel groups. 1. An imaging apparatus , comprising:a lens optical system including a lens and a stop;an imaging device on which light passing through the lens optical system is incident; andan array-form optical element located between the lens optical system and the imaging device and including a plurality of optical components extending in a row direction in a plane vertical to an optical axis of the lens optical system, the plurality of optical components being arrayed in a column direction in the plane;wherein:the imaging device includes a plurality of pixel groups arrayed in the column direction, each of which includes a plurality of first pixels arrayed in the row direction and a plurality of second pixels arrayed in the row direction at positions adjacent, in the column direction, to the plurality of first pixels; andborder positions between the plurality of optical components are respectively offset in the column direction with respect to corresponding border positions between the plurality of pixel groups.2. The imaging apparatus of claim 1 , wherein the border positions between the plurality of optical ...

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Номер записи: 43
28-11-2013 дата публикации

Cut-line steering methods for forming a mosaic image of a geographical area

Номер: US20130315503A1
Автор: Frank Giuffrida, Robert Bradacs, Robert Gray, Stephen Schultz
Принадлежит: Pictometry International Corp

A method for automatically steering mosaic cut lines along preferred routes to form an output mosaic image includes creating an assignment map corresponding to the output mosaic image where each pixel has an initial designation of unassigned; marking each pixel of the assignment map that intersects the preferred routes as being a Preferred Cut Line pixel to divide the Assignment Map into one or more regions; searching for each region to locate one or more source images that cover that region; and using a Selection Heuristic or Pairing Heuristic to determine quality of coverage. The Preferred Cut Line pixels are redesignated to match the image assignments of their bounded regions, and the output mosaic image is formed by contributing pixel values from the source images based upon the designations set forth in the assignment map.

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Номер записи: 44
12-12-2013 дата публикации

3D GEOMETRIC MODELING AND 3D VIDEO CONTENT CREATION

Номер: US20130329018A1
Автор: BITTAN Gur Arie, GORDON Eyal
Принадлежит: MantisVision Ltd.

A system, apparatus and method of obtaining data from a 2D image in order to determine the 3D shape of objects appearing in said 2D image, said 2D image having distinguishable epipolar lines, said method comprising: (a) providing a predefined set of types of features, giving rise to feature types, each feature type being distinguishable according to a unique bi-dimensional formation; (b) providing a coded light pattern comprising multiple appearances of said feature types; (c) projecting said coded light pattern on said objects such that the distance between epipolar lines associated with substantially identical features is less than the distance between corresponding locations of two neighboring features; (d) capturing a 2D image of said objects having said projected coded light pattern projected thereupon, said 2D image comprising reflected said feature types; and (e) extracting: (i) said reflected feature types according to the unique bi-dimensional formations; and (ii) locations of said reflected feature types on respective said epipolar lines in said 2D image. 1. A method , comprising:providing a first bi-dimensional coded light pattern having a first plurality of feature types and a second bi-dimensional coded light pattern having a second plurality of feature types, and each feature type from the first and the second plurality of feature types is distinguishable according to a unique bi-dimensional formation of varying light intensities, and each one of the unique bi-dimensional formations of varying light intensities is associated with a unique combination of a plurality of elements comprises: at least one maximum or minimum non-saddle element and a plurality of saddle elements, andwherein each feature type from the second plurality of feature types corresponds to a respective feature type from the first plurality of feature types, and wherein the at least one non-saddle element of each feature type from the second plurality of feature types is inverted ...

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Номер записи: 45
26-12-2013 дата публикации

Systems And Methods Of Using Digital Photograph Of A Structure To Quantify Its Dimensions, Weight, Volume, And The Amount Of Material Associated Therewith

Номер: US20130342682A1
Автор: "ORourke Kevin", Eichenberg Michael Lee
Принадлежит:

A method in a computer system for estimating an area of an object comprises the step of placing a scaling object adjacent a first side of the object. A first digital image of the object first side and the scaling device is taken. The scaling device is then placed adjacent the second side of the object, and a second digital image of the object second side and the scaling device is taken. The first image is converted into a first pixel grid and the second image is converted into a second pixel grid. An input device is used to mark respectively on the first and second pixels grids the endpoints of the scaling device along with endpoints of the first and second sides. Numerical values for a height and a width of the scaling device are entered using the input device. 1. A system for approximating a height and a width of an object using a digital image of the object , the system comprising:a processor in data communication with a storage unit;a camera for capturing a digital image of the object, the camera configured to upload the image onto the storage unit;an output device configured to display a grid of pixels created from the digital image;an input device configured to allow a user to mark an endpoint of the object on the grid of pixels;a distortion adjustment database comprising a plurality of vertical adjustment factors; andan architectural database comprising dimensions of a plurality of structures.2. The system of claim 1 , wherein the camera further uploads the digital image onto a website.3. The system of claim 2 , wherein the architectural database comprises information about a plurality of doors.4. The system of claim 3 , wherein a scaling device having a known height is placed adjacent the object before the capturing of the digital image.5. The system of claim 4 , wherein:the scaling device has a height of about 72 inches;the image is taken when the camera is about 72 inches from the object; andthe vertical adjustment factor is about 0.2 inches.6. The system ...

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Номер записи: 46
02-01-2014 дата публикации

Wide baseline binocular object matching method using minimal cost flow network

Номер: US20140002650A1
Автор: Shuqing Zeng
Принадлежит: GM GLOBAL TECHNOLOGY OPERATIONS LLC

A method for tracking a target object utilizing a binocular system includes capturing first and second images, the first image captured from a first camera device and the second image captured from a second camera device. A plurality of images are applied to the first and second images and a plurality of detection costs each associated with respective ones of the image patches applied to the first and second images is determined. A plurality of matching costs each corresponding to respective ones of selected matching pairs of image patches between the first and second images is determined. At least one cost flow path is determined from a source vertex of the first image to a sink vertex of the second image based on the detection costs and the matching costs and the target object is tracked based on the at least one cost flow path.

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Номер записи: 47
09-01-2014 дата публикации

LINE-WIDTH MEASUREMENT DEVICE AND MEASUREMENT METHOD USING THE SAME

Номер: US20140009602A1
Автор: Lin Yung-yu, Wang Qingping
Принадлежит: SHENZHEN CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD.

A line-width measurement device and a measurement method using the same are disclosed. The line-width measurement device has a platform, an image capturing device and a color-mixing light source device. The image capturing device captures an image of a pattern under measurement in a measurement area of the platform. The color-mixing light source device correspondingly provides illumination to the measurement area. The color-mixing light source device has a plurality of monochromatic light sources and adjusts the brightness scale of each monochromatic light source according to the matching rate of the pattern under measurement and a standard pattern to provide suitable color-mixed lights for illumination. Therefore, the present invention can provide a better measurement environment to further enhance accuracy of line-width measurement. 1. A line-width measurement device comprising:a platform having a measurement area;an image capturing device mounted above the platform and being used to capture an image of a pattern under measurement in the measurement area;a controller connected to the image capturing device and receiving the image of the pattern under measurement captured by the image capturing device; anda color-mixing light source device mounted above the platform, including a plurality of monochromatic light sources and adjusting brightness scale of each of the monochromatic light sources according to a matching rate between the image of the pattern under measurement and an image of a standard pattern so as to provide suitable color-mixed lights for illumination, wherein the color-mixing light source device includes a red light source, a blue light source and a green light source.2. The line-width measurement device as claimed in claim 1 , wherein the color-mixing light source device further has an optical element; and the lights emitted by the monochromatic light sources are projected onto the optical element together and mixed with each other claim 1 , and ...

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Номер записи: 48
30-01-2014 дата публикации

Cut line steering methods for forming a mosaic image of a geographical area

Номер: US20140029867A1
Автор: Frank Giuffrida, Robert Bradacs, Robert Gray, Stephen Schultz
Принадлежит: Pictometry International Corp

Systems and methods for creating a ground confidence map of a geographic area, comprising the steps of creating a ground confidence map of a geographic area, the ground confidence map having a plurality of pixels with each pixel corresponding to a particular geographic location; assigning the pixels in the ground confidence map with pixel values indicative of composite ground confidence scores by calculating composite ground confidence scores for the pixel values of common geographic regions within the overlapping portions of the source images within a kernel corresponding to the particular geographic location of the pixels; and storing pixel values indicative of a statistical probability that the geographical location represented by the particular pixels represent the ground.

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Номер записи: 49
20-02-2014 дата публикации

Image information output method

Номер: US20140049617A1
Автор: Takamoto Kodaira, Takatoshi Kodaira
Принадлежит: KODAIRA ASSOCIATES Inc

Provided is a video image data generation system including a database for storing a plurality of image data photographed in various directions in various locations, correlating the directions and the locations with the stored image data, and correlating and storing a photographed sub-region when the image data is acquired, a route view point specifying device which specifies various locations and eye level directions arranged on a view point route, an image search engine which searches an image of an eye level direction specified from a location of a view point route specified by the route view point specifying device and outputs video data, wherein the image search engine searches image data stored in a database and the image data including a sub-region located in an eye level direction in each of a plurality of locations on a view point route by referencing photography direction data correlated with the sub-region.

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Номер записи: 50
06-03-2014 дата публикации

SCALE, ENCODER, LENS APPARATUS, AND IMAGE PICKUP SYSTEM

Номер: US20140064565A1
Автор: Nagura Chihiro
Принадлежит: CANON KABUSHIKI KAISHA

A scale () has a plurality of patterns so as to spatially modulate an energy distribution, and the scale includes a first pattern having a first modulation period in a moving direction, and a second pattern having a second modulation period different from the first modulation period in the moving direction, a relative phase between the first pattern and the second pattern changes in accordance with a direction perpendicular to the moving direction, each of the first pattern and the second pattern is configured by including a reflective portion () that reflects light and a non-reflective portion () that does not reflect the light, and a width of the reflective portion () in the moving direction at a first position is different from the width at a second position different from the first position along the direction perpendicular to the moving direction. 1. A scale having a plurality of patterns so as to spatially modulate an energy distribution , the scale comprising:a first pattern having a first modulation period in a moving direction; anda second pattern having a second modulation period different from the first modulation period in the moving direction,wherein a relative phase between the first pattern and the second pattern changes in accordance with a direction perpendicular to the moving direction,wherein each of the first pattern and the second pattern is configured by including a reflective portion that reflects light and a non-reflective portion that does not reflect the light, andwherein a width of the reflective portion in the moving direction at a first position is different from the width at a second position different from the first position along the direction perpendicular to the moving direction.2. The scale according to claim 1 , wherein a first region having the first pattern and a second region having the second pattern are alternately arranged in the direction perpendicular to the moving direction.3. The scale according to claim 1 ,wherein the ...

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Номер записи: 51
13-03-2014 дата публикации

IMAGE PICK-UP DEVICE AND DISTANCE MEASURING DEVICE

Номер: US20140071247A1
Автор: Imamura Norihiro, Korenaga Tsuguhiro, Morimuar Atsushi, Uomori Kenya, Yamagata Michihiro
Принадлежит:

An image pickup device N according to an embodiment includes: an objective lens L with first and second regions D, D; an image sensor N with multiple groups of pixels Pg, in each of which first, second, third and fourth pixels P to P are arranged in two rows and two columns on an image capturing plane Ni; and an array of optical elements K which includes a plurality of optical elements M. The first and second pixels P, P have a first spectral transmittance characteristic, and in each group of pixels Pg, the first and second pixels P, P are arranged at mutually different positions in the second direction. Each of the plurality of optical elements M is arranged at such a position as to face groups of pixels Pg that are arranged in a row in the first direction among the multiple groups of pixels Pg. 1. An image pickup device comprising:a lens optical system which includes a first pupil region and a second pupil region that is different from the first pupil region;an image sensor with multiple groups of pixels, in each of which first, second, third and fourth pixels, on which light that has passed through the lens optical system is incident, are arranged in two rows and two columns on an image capturing plane; andan array of optical elements which is arranged between the lens optical system and the image sensor and which includes a plurality of optical elements,wherein the multiple groups of pixels are arranged in first and second directions on the image capturing plane, andwherein the first and second pixels have a first spectral transmittance characteristic, the third pixel has a second spectral transmittance characteristic, the fourth pixel has a third spectral transmittance characteristic, and in each said group of pixels, the first and second pixels are arranged at mutually different positions in the direction, andwherein in the array of optical elements, each of the plurality of optical elements is arranged at such a position as to face groups of pixels that are ...

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Номер записи: 52
01-01-2015 дата публикации

INFORMATION PROCESSING APPARATUS, ASSEMBLY APPARATUS, INFORMATION PROCESSING METHOD, AND STORAGE MEDIUM

Номер: US20150003685A1
Автор: Matsugu Masakazu, Ohno Akira, Yamamoto Takahisa
Принадлежит:

There is provided with an information processing apparatus. A detection unit detects a first region and a second region from a captured image. The first region includes a first portion of the measurement target that reflects a larger amount of light toward an imaging unit. The second region includes a second portion of the measurement target that reflects a smaller amount of light toward the imaging unit than the first portion does. A generation unit generates a measurement pattern that has different amounts of irradiation light depending on regions, such that an amount of irradiation light in the first region is smaller than an amount of irradiation light in the second region. 1. An information processing apparatus comprising:an irradiation unit configured to irradiate a measurement target with a measurement pattern for distance measurement;an imaging unit configured to obtain a captured image including the measurement target irradiated with the measurement pattern;a first detection unit configured to detect a first region and a second region from the captured image obtained by the imaging unit, the first region including a first portion of the measurement target that reflects a larger amount of light toward the imaging unit, and the second region including a second portion of the measurement target that reflects a smaller amount of light toward the imaging unit than the first portion does;a second detection unit that detects, from the measurement pattern, a first region with which the first portion is irradiated and a second region with which the second portion is irradiated;a generation unit configured to generate a measurement pattern that has different amounts of irradiation light depending on regions, such that an amount of irradiation light in the first region is smaller than an amount of irradiation light in the second region;an instruction unit configured to cause the irradiation unit to perform irradiation with the generated measurement pattern; anda ...

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Номер записи: 53
04-01-2018 дата публикации

THREE-DIMENSIONAL POSITION MEASURING SYSTEM, THREE-DIMENSIONAL POSITION MEASURING METHOD, AND MEASURING MODULE

Номер: US20180003820A1
Автор: NISHITA Nobuyuki
Принадлежит:

Provided is a three-dimensional position measuring system, a three-dimensional position measuring method, and a measuring module with which measurement can be performed without a special operation constraint even in state where a measuring module is inclined. The three-dimensional position measuring system includes a measuring module that includes a target, an omnidirectional camera, and a triaxial accelerometer, and is grasped a positional relationship among the target, the omnidirectional camera, and a measurement point, and a surveying instrument including a light output section that outputs light toward the target and a measurement section that performs distance measuring and angle measuring to the target. Since the measuring module including the target is equipped with the omnidirectional camera and the triaxial accelerometer, a posture direction of the measuring module can be identified. 1. A three-dimensional position measuring system comprising:a measuring module that includes a target, an omnidirectional camera, and a triaxial accelerometer, and is grasped a positional relationship among the target, the omnidirectional camera, and a measurement point; anda surveying instrument including a light output section that outputs light toward the target and a measurement section that performs distance measuring and angle measuring to measure a distance and an angle to the target.2. The three-dimensional position measuring system according to claim 1 , wherein the target and the omnidirectional camera are arranged on a straight line claim 1 , and the measurement point is disposed in a known direction from the straight line by a distance meter or a pointing rod with a known length.3. A three-dimensional position measuring method claim 1 , wherein{'claim-ref': {'@idref': 'CLM-00002', 'claim 2'}, 'in the three-dimensional position measuring system according to ,'}(a) a distance and an angle to the target are measured by the measurement section and a surveying ...

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Номер записи: 54
03-01-2019 дата публикации

Monitoring systems and methods

Номер: US20190003832A1
Автор: George Vladimir Poropat, Marc Karim Elmouttie
Принадлежит: Commonwealth Scientific and Industrial Research Organization CSIRO

This disclosure relates to a system for monitoring walls. The system receives first and second image data representing two-dimensional locations of multiple points of the wall associated with a first and second point in time, the second point in time being later than the first point in time. The system also receives depth data from a depth sensor indicative of a change in depth of the wall between the first point in time and the second point in time. The system then determines data indicative of a change of the two-dimensional locations of the multiple points of the wall between the first point in time and the second point in time based on the first image data, the second image data, and the depth data. This means correlations between the image data and the depth data can be considered, which allows accurate perpendicular line of sight monitoring.

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Номер записи: 55
05-01-2017 дата публикации

Device and Method for Multifunction Relative Alignment and Sensing

Номер: US20170004615A1
Автор: Goldstein David J.
Принадлежит:

A tiltmeter-integrated two element optical relative alignment monitor provides relative alignment and contact sensing and can provide precise information regarding the nature of physical contact experienced by objects being monitored. A computer monitor can display the information in real time, in an intuitive manner. This system can provide all the information with good resolution in a low-cost, easily installable package for a wide variety of research, high energy physics applications, and industrial uses. A projector unit is mounted on one component containing a diffuse light source, a coded mask, and a lens. The projector is aligned with a camera to receive the focused image. Shifts in the image of the mask indicate relative motion between the camera and the projector unit. A tiltmeter is affixed to either the camera or projector, to distinguish between image shifts due to translational movement and image shifts due to rotation or tilting. 1. A method for monitoring changes of relative position of a first object with respect to a second object , the method comprising:providing a projector unit affixed to the first object, a camera affixed to the second object, and a tiltmeter affixed to the camera or the projector unit, the projector unit having a diffuse light source, lens, and a coded mask having a pattern, the coded mask positioned between the diffuse light source and the lens;illuminating the coded mask with the diffuse light source such that the lens magnifies an image of the pattern of the coded mask and focuses the image onto an image plane of the camera;measuring, with the tiltmeter, an amount of tilt of the projector or camera with respect to a reference line between the projector and the camera; andmonitoring both the image of the coded mask and the amount of tilt of the projector unit or camera to determine changes in relative position of the first object with respect to the second object.2. The method according to claim 1 , further comprising: ...

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Номер записи: 56
04-01-2018 дата публикации

METHOD, SYSTEM AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM FOR DETERMINING REGION OF INTEREST FOR PHOTOGRAPHING BALL IMAGES

Номер: US20180005383A1
Автор: Suk Jey Ho, Suk Yong Ho
Принадлежит: CREATZ Inc.

The present invention relates to a method, system and non-transitory computer-readable recording medium for determining a region of interest for photographing ball images. According to one aspect of the invention, there is provided a method for determining a region of interest for photographing ball images, comprising the steps of: recognizing a location of a ball whose physical quantity is to be measured, in a state in which shot preparation is completed; and dynamically determining a region of interest to be photographed to acquire images including an appearance of the ball, with reference to the location of the ball and at least one of a predicted moving direction of the ball and a location of at least one camera configured to photograph the ball. 1. A method for determining a region of interest for photographing ball images , comprising the steps of:recognizing a location of a ball whose physical quantity is to be measured, in a state in which shot preparation is completed; anddynamically determining a region of interest to be photographed to acquire images including an appearance of the ball, with reference to the location of the ball and at least one of a predicted moving direction of the ball and a location of at least one camera configured to photograph the ball.2. The method of claim 1 , wherein in the determining step claim 1 , a center position of the region of interest is dynamically determined claim 1 , with reference to the location of the ball and at least one of the predicted moving direction of the ball and the location of the at least one camera.3. The method of claim 2 , wherein in the determining step claim 2 , the center position of the region of interest is dynamically determined claim 2 , such that a distance between the location of the at least one camera configured to photograph the ball and the location of the ball is smaller than a distance between the location of the at least one camera and the center position of the region of interest.4. ...

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Номер записи: 57
04-01-2018 дата публикации

METHOD, SYSTEM AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM FOR MEASUREING BALL SPIN

Номер: US20180005385A1
Автор: Suk Jey Ho, Suk Yong Ho
Принадлежит: CREATZ Inc.

The present invention relates to a method, system and non-transitory computer-readable recording medium for measuring ball spin. According to one aspect of the invention, there is provided a method for measuring ball spin, comprising the steps of: detecting at least one mark appearing in a region corresponding to a ball in each of a plurality of images in which the ball is photographed, wherein a physical quantity of the ball is to be measured; recognizing a mark commonly detected over a first image and a second image that are temporally adjacent, with reference to information on properties of the at least one detected mark in each of the plurality of images, and generating a mark sequence including information on the properties of the recognized mark in the first and second images; and measuring a physical quantity related to spin of the ball with reference to the generated mark sequence. 1. A method for measuring ball spin , comprising the steps of:detecting at least one mark appearing in a region corresponding to a ball in each of a plurality of images in which the ball is photographed, wherein a physical quantity of the ball is to be measured;recognizing a mark commonly detected over a first image and a second image that are temporally adjacent, with reference to information on properties of the at least one detected mark in each of the plurality of images, and generating a mark sequence including information on the properties of the recognized mark in the first and second images; andmeasuring a physical quantity related to spin of the ball with reference to the generated mark sequence.2. The method of claim 1 , wherein the properties include at least one of a location claim 1 , size claim 1 , direction claim 1 , and shape.3. The method of claim 2 , wherein the properties are specified with respect to a spherical coordinate system defining a surface of the ball.4. The method of claim 1 , wherein in the recognizing step claim 1 , a first mark appearing in the ...

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Номер записи: 58
04-01-2018 дата публикации

METHOD, SYSTEM AND NON-TRANSITORY COMPUTER-READABLE RECORDING MEDIUM FOR COMPENSATING BRIGHTNESS OF BALL IMAGES

Номер: US20180005396A1
Автор: Suk Jey Ho, Suk Yong Ho
Принадлежит: CREATZ Inc.

The present invention relates to a method, system and non-transitory computer-readable recording medium for compensating brightness of ball images. According to one aspect of the invention, there is provided a method for compensating brightness of ball images, comprising the steps of: calculating photographed brightness distribution of a region corresponding to a ball in each of a plurality of images in which the ball is photographed, wherein a physical quantity of the ball is to be measured; and compensating the photographed brightness distribution of the region corresponding to the ball in at least one of the plurality of images, with reference to reference brightness distribution. 1. A method for compensating brightness of ball images , comprising the steps of:calculating photographed brightness distribution of a region corresponding to a ball in each of a plurality of images in which the ball is photographed, wherein a physical quantity of the ball is to be measured; andcompensating the photographed brightness distribution of the region corresponding to the ball in at least one of the plurality of images, with reference to reference brightness distribution.2. The method of claim 1 , wherein in the calculating step claim 1 , the photographed brightness distribution is calculated using at least one of a linear regression model and a non-parametric model.3. The method of claim 1 , wherein in the calculating step claim 1 , the photographed brightness distribution is calculated with respect to at least one of center coordinates and maximum brightness coordinates of the region corresponding to the ball in each of the plurality of images.4. The method of claim 1 , wherein in the compensating step claim 1 , the compensation is performed such that uniformity of the photographed brightness distribution of the region corresponding to the ball in the at least one image is equal to or greater than a predetermined level.5. The method of claim 1 , wherein the compensating step ...

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Номер записи: 59
04-01-2018 дата публикации

Visual positioning device and three-dimensional surveying and mapping system and method based on same

Номер: US20180005457A1
Автор: Zheng Qin
Принадлежит: Beijing Antvr Technology Co ltd

Disclosed are a visual positioning device ( 101 ) and a three-dimensional surveying and mapping system ( 100 ) including at least one visual positioning device ( 101 ). The visual positioning device ( 101 ) includes an infrared light source ( 101 b ), an infrared camera ( 101 a ), a signal transceiver module ( 101 d ) and a visible light camera ( 101 c ). The three-dimensional surveying and mapping system ( 100 ) further includes a plurality of position identification points ( 102 ), a plurality of active signal points ( 103 ) and an image processing server ( 104 ). The image processing server ( 104 ) is configured to cache infrared images and real scene images shot by the infrared camera ( 101 a ) and the visible light camera ( 101 c ) and positioning information thereabout and store a three-dimensional model obtained through reconstruction. The present invention has the advantages of simple structure, no need for a power supply, convenience in use and high precision, etc.

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Номер записи: 60
02-01-2020 дата публикации

Apparatus that generates three-dimensional shape data, method and storage medium

Номер: US20200005476A1
Автор: Tomohiro Nishiyama
Принадлежит: Canon Inc

An object of the present invention is to estimate the shape of an object easily and with a high accuracy. The present invention is a generation apparatus including: an acquisition unit configured to acquire a plurality of pieces of image data obtained by capturing an object from different directions by a plurality of image capturing apparatuses arranged at different positions, respectively; a first derivation unit configured to derive reliability for each of the image capturing apparatuses based on spatial resolution in the image data; and a generation unit configured to generate three-dimensional shape data representing the shape of the object based on the image data and the reliability.

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Номер записи: 61
02-01-2020 дата публикации

CAMERA SYSTEMS USING FILTERS AND EXPOSURE TIMES TO DETECT FLICKERING ILLUMINATED OBJECTS

Номер: US20200005477A1
Автор: Ingram Benjamin, Wendel Andreas
Принадлежит:

The technology relates to camera systems for vehicles having an autonomous driving mode. An example system includes a first camera mounted on a vehicle in order to capture images of the vehicle's environment. The first camera has a first exposure time and being without an ND filter. The system also includes a second camera mounted on the vehicle in order to capture images of the vehicle's environment and having an ND filter. The system also includes one or more processors configured to capture images using the first camera and the first exposure time, capture images using the second camera and the second exposure time, use the images captured using the second camera to identify illuminated objects, use the images captured using the first camera to identify the locations of objects, and use the identified illuminated objects and identified locations of objects to control the vehicle in an autonomous driving mode. 1. A method comprising:capturing images using a first camera and a first exposure time, the first camera being mounted in order to capture images of an environment, the first camera being without an ND filter;capturing images using a second camera and a second exposure time, the second camera being mounted in order to capture images of the environment, the second exposure time being greater than or equal to the first exposure time and having an ND filter;using the images captured using the second camera to identify illuminated objects; andusing the images captured using the first camera to identify the locations of objects.2. The method of claim 1 , wherein the first camera and the second camera each include a near infrared filter.3. The method of claim 1 , wherein the second exposure time is on the order of milliseconds.4. The method of claim 3 , wherein the second exposure time is at least 5 milliseconds and the first exposure time is no greater than 5 milliseconds.5. The method of claim 1 , wherein the ND filter is selected according to the second ...

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Номер записи: 62
03-01-2019 дата публикации

IMAGE PROCESSING APPARATUS, IMAGING APPARATUS, MOBILE DEVICE CONTROL SYSTEM, AND RECORDING MEDIUM

Номер: US20190005338A1
Автор: WATANABE Genki
Принадлежит:

An image processing apparatus processes an image captured by an imager. The image processing apparatus includes a detector configured to detect a body positioned within a predetermined distance from the imager; and a determiner configured to calculate an inclination of the body based on information indicating a distance from the imager to points surrounding the detected body, and determine a type of the body based on the inclination. 1. An image processing apparatus for processing an image captured by an imager , the image processing apparatus comprising:a detector configured to detect a body positioned within a predetermined distance from the imager; anda determiner configured to calculate an inclination of the body based on information indicating a distance from the imager to points surrounding the detected body, and determine a type of the body based on the inclination.2. The image processing apparatus according to claim 1 , wherein the determiner determines the type of the body based on a gradient of the body or a left and right inclination of the body claim 1 , and rejects the body according to the type of the body.3. The image processing apparatus according to claim 1 , wherein the determiner calculates a gradient of the detected body claim 1 , based on a distance to a top side and a distance to a bottom side of the detected body claim 1 , and rejects the body in response to determining that that the gradient is gentler than a predetermined threshold value.4. The image processing apparatus according to claim 1 , wherein the determiner calculates a gradient of the detected body claim 1 , based on a distance to a center of a top side and a distance to a bottom side of the detected body claim 1 , and rejects the body in response to determining that the gradient is less than or equal to a predetermined threshold value.5. The image processing apparatus according to claim 1 , wherein the determiner determines whether the body is a side body positioned in parallel to ...

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Номер записи: 63
03-01-2019 дата публикации

METHOD AND SYSTEM FOR PERFORMING SIMULTANEOUS LOCALIZATION AND MAPPING USING CONVOLUTIONAL IMAGE TRANSFORMATION

Номер: US20190005670A1
Автор: DeTone Daniel, Malisiewicz Tomasz Jan, Rabinovich Andrew
Принадлежит: Magic Leap, Inc.

Augmented reality devices and methods for computing a homography based on two images. One method may include receiving a first image based on a first camera pose and a second image based on a second camera pose, generating a first point cloud based on the first image and a second point cloud based on the second image, providing the first point cloud and the second point cloud to a neural network, and generating, by the neural network, the homography based on the first point cloud and the second point cloud. The neural network may be trained by generating a plurality of points, determining a 3D trajectory, sampling the 3D trajectory to obtain camera poses viewing the points, projecting the points onto 2D planes, comparing a generated homography using the projected points to the ground-truth homography and modifying the neural network based on the comparison. 1. A method for computing a homography based on two images , the method comprising:receiving a first image based on a first camera pose and a second image based on a second camera pose;generating a first point cloud based on the first image and a second point cloud based on the second image;providing the first point cloud and the second point cloud to a neural network; andgenerating, by the neural network, the homography based on the first point cloud and the second point cloud.2. The method of claim 1 , wherein the first point cloud and the second point cloud are two-dimensional (2D) point clouds.3. The method of claim 2 , wherein the first image was captured by a first camera at a first instant in time claim 2 , and wherein the second image was captured by the first camera at a second instant in time after the first instant in time.4. The method of claim 2 , wherein the first point cloud and the second point cloud are generated using a first neural network claim 2 , and wherein the neural network is a second neural network.5. The method of claim 2 , wherein the neural network was previously trained by: ...

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Номер записи: 64
20-01-2022 дата публикации

Method for Obtaining Depth Information and Electronic Device

Номер: US20220020165A1
Автор: Chen Guoqiao, Yuan Jiangfeng, Yuan Mengyou
Принадлежит:

Embodiments of this application provide a method for obtaining depth information and an electronic device. The method is applied to the field of image processing technologies and can help an electronic device improve accuracy of obtaining depth information. A specific solution includes: The electronic device includes a first camera, a second camera, and an infrared projector. The electronic device receives a first instruction used to trigger the electronic device to obtain depth information of a target object; in response to the first instruction, transmits infrared light with a light spot by using an infrared projector; collects first image information of the target object by using the first camera; collects second image information of the target object by using the second camera, where the first image information and the second image information include a feature of the target object and a texture feature formed when infrared light with a light spot is irradiated onto the target object; and calculates depth information of the target object based on the first image information, the second image information, the first length, a lens focal length of the first camera, and a lens focal length of the second camera. 1. A method for obtaining depth information implemented by an electronic device , wherein the method comprises:receiving a first instruction configured to trigger the electronic device to obtain depth information of a target object; emitting infrared light with a light spot using an infrared projector of the electronic device;', 'collecting first image information of the target object using a first camera of the electronic device; and', 'collecting second image information of the target object using a second camera of the electronic device, wherein the first image information and the second image information comprise a feature of the target object and a texture feature formed when the infrared light with the light spot is emitted onto the target object; and, ...

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Номер записи: 65
10-01-2019 дата публикации

IMAGE REGISTRATION OF INTRAORAL IMAGES USING ADHESIVE OBJECTS

Номер: US20190008617A1
Автор: Katz Ran, Kopelman Avi, KUO Eric, Levin Adi
Принадлежит:

Data from an intraoral scan is received, the data comprising a plurality of intraoral images of a dental site. At least two intraoral images are identified that comprise a representation of at least a portion of a non-rigid object that was affixed to the dental site at a target area. Image registration is performed between the at least two intraoral images using the non-rigid object identified in the at least two intraoral images. A 3D model of the dental site is generated based on the image registration. A representation of the non-rigid object is subtracted from the 3D model based on the known properties of the non-rigid object. A surface of a portion of the dental site is interpolated where the non-rigid object was located based on a) data for other portions of the dental site and b) the surface of the base of the non-rigid object. 1. A method comprising:receiving, by a processing device, data from an intraoral scan of a patient responsive to performance of the intraoral scan being performed by an intraoral scanner, the data comprising a plurality of intraoral images of a dental site;determining that at least two intraoral images of the plurality of intraoral images comprise a representation of at least a portion of a non-rigid object that was affixed to the dental site at a target area, wherein the non-rigid object has known properties comprising at least one of a known two-dimensional (2D) surface pattern or a known shape, wherein the non-rigid object provides a reference point for image registration, wherein the non-rigid object partially deforms based on a shape of the target area, and wherein partial deformation of the non-rigid object deforms at least one of the known shape or the known 2D surface pattern;performing, by the processing device, image registration between the at least two intraoral images using the non-rigid object identified in the at least two intraoral images;generating a three-dimensional (3D) model of the dental site based on the image ...

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Номер записи: 66
14-01-2021 дата публикации

METHOD AND SYSTEM FOR PREDICTING A RISK FOR ROLLOVER OF A WORKING MACHINE

Номер: US20210009142A1
Автор: SKILLSÄTER Calle, WAHLSTRÖM Patrik
Принадлежит:

A method is provided for predicting a risk for rollover of a working machine for load transportation. The method includes: obtaining ground topographic data of a geographical area located close to the working machine from a ground topographic detection system; extracting a ground gradient from the ground topographic data; obtaining weight information of the load being currently transported by means of an on-board load weighting system or by receiving load information originating from the device that loaded the load being currently transported; determining a current maximal allowed ground gradient for the working machine based on the weight information; and predicting a risk for working machine rollover if the working machine approaches a geographical area including a ground gradient exceeding or being close to the current maximal allowed ground gradient for the working machine. 1. A method for predicting a risk for rollover of a working machine for load transportation , the method comprising:obtaining ground topographic data of a geographical area located close to the working machine from a ground topographic detection system;extracting a ground gradient from the ground topographic data;predicting a future driving path of the working machine;obtaining weight information of the load being currently transported using an on-board load weighting system or by receiving load information originating from the device that loaded the load being currently transported;determining a current maximal allowed ground gradient for the working machine based on said weight information; andperforming an action to reduce the risk for rollover if the predicted future driving path of the working machine includes a ground gradient exceeding or being close to current maximal allowed ground gradient for the working machine.2. The method of claim 1 , wherein the working machine is an articulated hauler or mining truck.3. The method of claim 1 , wherein the working machine comprises a load ...

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Номер записи: 67
14-01-2016 дата публикации

Surveying Instrument

Номер: US20160010987A1
Автор: Ishida Takeshi, Iwasaki Goro, Kochi Jumpei, Nakabe Hiroyuki, NISHITA Nobuyuki
Принадлежит:

The invention provides a surveying instrument, comprising a frame unit rotatable in a horizontal direction, a telescope unit as mounted rotatably in a vertical direction on the frame unit and further for sighting an object to be measured, a horizontal driving unit for rotating and driving the frame unit in a horizontal direction, a vertical driving unit for rotating the telescope unit in a vertical direction, a horizontal angle measuring unit for detecting a horizontal angle of the frame unit, a vertical angle measuring unit for detecting a vertical angle of the telescope unit and a control device, wherein the control device is adapted to calculate a solar altitude at a time moment by setting up coordinates of where the surveying instrument is installed and the time moment, and to make the telescope unit to set to the solar altitude as calculated by controlling the vertical driving unit, to control the horizontal driving unit, to execute searching of the sun by horizontally rotating the frame unit at the solar altitude as set up, to capture the sun, to sight the sun, to detect a horizontal angle under the sighted condition based on the horizontal angle measuring unit, and to survey a true north based on the horizontal angle as detected. 1. A surveying instrument comprising a frame unit rotatable in a horizontal direction , a telescope unit as mounted rotatably in a vertical direction on said frame unit and further for sighting an object to be measured , a horizontal driving unit for rotating and driving said frame unit in a horizontal direction , a vertical driving unit for rotating said telescope unit in a vertical direction , a horizontal angle measuring unit for detecting a horizontal angle of said frame unit , a vertical angle measuring unit for detecting a vertical angle of said telescope unit and a control device , wherein said control device is adapted to calculate a solar altitude at a time moment by setting up coordinates of where said surveying instrument ...

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Номер записи: 68
14-01-2016 дата публикации

OFFSHORE POSITIONING SYSTEM AND METHOD

Номер: US20160010989A1
Автор: Booij Olaf, NEJADASL Fatemeh Karimi, SCHIPPERS Evert, WOUTERS Hendrik
Принадлежит:

A system for measuring the attitude of an object in a fixed frame of reference from a moving frame of reference, comprising a first imaging device for producing image data for the object from a first direction, a second imaging device for producing image data for the object from a second direction having a component perpendicular to the first direction and an attitude sensing arrangement for determining an attitude of the first and second imaging devices with respect to the fixed frame of reference at the time the respective images are taken and for generating attitude data. An image processing system analyses and combines the respective image data and attitude data to determine the attitude of the object. The system is particularly useful for determining attitude of offshore piles during piling operations or for monitoring the departure angles of pipes and cables during laying thereof. 125-. (canceled)26. A system for measuring in real time an attitude of an object in a fixed frame of reference from a moving frame of reference , the system comprising:a first imaging device for producing image data for the object from a first direction;a second imaging device for producing image data for the object from a second direction having a component perpendicular to the first direction;an attitude sensing arrangement for determining an attitude of the first and second imaging devices with respect to the fixed frame of reference at the time the respective images are taken and for generating attitude data; andan image processing system for analysing and combining the respective image data and attitude data to determine the real time attitude of the object.27. The system according to claim 26 , wherein the attitude sensing arrangement comprises a three-axis attitude sensor with heading indicator.28. The system according to claim 26 , wherein the attitude sensing arrangement comprises first and second attitude sensors claim 26 , each integrated with a respective imaging device ...

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Номер записи: 69
14-01-2016 дата публикации

Machine Vision System for Forming a Digital Representation of a Low Information Content Scene

Номер: US20160010990A1
Автор: McGarry John
Принадлежит:

A machine vision system to form a digital image that includes information about both (1) relative displacements of segments of an illumination profile within the digital image due to height discontinuities of corresponding illuminated portions of various surfaces in a scene, and (2) relative reflectivity of the illuminated portions of those surfaces. 2. The machine vision system of claim 1 , wherein the instructions for finding a column signal vector include instructions to multiply the transpose of the sampling pattern matrix by the column measurement vector.3. The machine vision system of claim 1 , wherein the instructions for processing a column signal vector include:a) instructions that use one or more coefficients of the column signal vector corresponding to dark pixels for determining a scale factor, andb) instructions to multiply a coefficient of a signal vector corresponding to light sensitive pixels by the scale factor to form the digital pixel value.4. The machine vision system of claim 3 , wherein the scale factor is determined as a ratio of (1) a statistic of levels of the reference signal received by the dark pixels claim 3 , and (2) a statistic of values of coefficients of the column signal vector that correspond to the rows of the pixel array that have dark pixels.5. The machine vision system of claim 1 , wherein the reference signal received by the dark pixels is an electrical signal.6. The machine vision system of claim 5 , wherein a value of the reference signal received by all dark pixels is substantially the same.7. The machine vision system of claim 1 , wherein the sampling pattern generator comprisesa reference signal source configured to provide the reference signal to the dark pixels, anda pixel output controller configured to provide a sequence of the pixel output control signals to the array of pixel output control busses.8. The machine vision system of claim 1 , wherein each of the pixel output control buses comprises two or more ...

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Номер записи: 70
14-01-2016 дата публикации

METHOD AND APPARATUS FOR DIRECT DETECTION, LOCATION, ANALYSIS, IDENTIFICATION, AND REPORTING OF VEGETATION CLEARANCE VIOLATIONS

Номер: US20160012601A1
Автор: Dow James W., Dow W. Scott, Openshaw William A., Page Alan R., Rhodes Michael D.
Принадлежит:

A method and system for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area. Waypoints are located to define a centerline and the boundary area to be analyzed. Vegetation coordinate points in the scene are determined from the digital image data. Ground coordinate points are determined from the digital image data. A clearance surface segment is constructed within the boundary area between the first and second object. The clearance surface is determined from the location of the first and second object and clearance criteria. The clearance surface is used to define a violation region. 1. A method for processing digital image data taken from a three-dimensional topographic area including terrain and a right of way including a first and a second object to establish a clearance surface to define clearance violations within a boundary area , the method comprising:locating waypoints to define a centerline and the boundary area to be analyzed;determining vegetation coordinate points in the scene from the digital image data;determining ground coordinate points from the digital image data;constructing a clearance surface segment within the boundary area between the first and second object, the clearance surface segment determined from the location of the first and second object and clearance criteria;using the clearance surface segment to define a violation region.227-. (canceled) The present disclosure relates generally to the field of detecting, locating, analyzing, identifying, and reporting vegetation objects and/or other objects (both natural and manmade) in corridors/rights-of-way to determine whether or not such objects violate specific clearance criteria (clearance distance/spacing specifications) with respect to such objects' proximity (spatial relationship) to critical operating ...

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Номер записи: 71
14-01-2021 дата публикации

CAMERA SYSTEMS USING FILTERS AND EXPOSURE TIMES TO DETECT FLICKERING ILLUMINATED OBJECTS

Номер: US20210012521A1
Автор: Ingram Benjamin, Wendel Andreas
Принадлежит:

The technology relates to camera systems for vehicles having an autonomous driving mode. An example system includes a first camera mounted on a vehicle in order to capture images of the vehicle's environment. The first camera has a first exposure time and being without an ND filter. The system also includes a second camera mounted on the vehicle in order to capture images of the vehicle's environment and having an ND filter. The system also includes one or more processors configured to capture images using the first camera and the first exposure time, capture images using the second camera and the second exposure time, use the images captured using the second camera to identify illuminated objects, use the images captured using the first camera to identify the locations of objects, and use the identified illuminated objects and identified locations of objects to control the vehicle in an autonomous driving mode. 1. A vehicle comprising:a first camera mounted in order to capture images of an environment of the vehicle, the first camera having a first exposure time and being without an ND filter; anda second camera mounted in order to capture images of the environment, the second camera having a second exposure time that is greater than or equal to the first exposure time and having an ND filter.one or more processors configured to:capture images using the first camera and the first exposure time;capture images using the second camera and the second exposure time;use the images captured using the second camera to identify light from at least one light emitting diode (LED);use the images captured using the first camera to identify a location of an object including the at least one LED; anduse the identified LED and the identified location of the object to control the vehicle in an autonomous driving mode.2. The vehicle of claim 1 , wherein the first camera and the second camera each include a near infrared filter.3. The vehicle of claim 1 , wherein the second exposure ...

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Номер записи: 72
09-01-2020 дата публикации

IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND NON-TRANSITORY COMPUTER READABLE STORAGE MEDIUM

Номер: US20200012908A1
Автор: MIYAZAKI Shinichi, Ogawa Shuhei
Принадлежит:

According to an embodiment of this invention, an image processing apparatus for acquiring image data edited after obtained by image-capturing an object performs the following processing. More specifically, the apparatus obtains information, equivalent to a distance from a focal plane in image-capturing, corresponding to image data before editing, obtained when image-capturing the object, and generates information, equivalent to a distance from a focal plane, corresponding to the edited image data, based on the edited image data, and the information, equivalent to the distance from the focal plane, corresponding to the image data before editing. 1. An image processing apparatus comprising:an acquiring unit configured to acquire image data edited after obtained by image-capturing an object;an obtaining unit configured to obtain information, equivalent to a distance from a focal plane in image-capturing, corresponding to image data before editing, obtained when image-capturing the object; anda generation unit configured to generate information, equivalent to a distance from a focal plane, corresponding to the edited image data, based on the edited image data, and the information, equivalent to the distance from the focal plane, corresponding to the image data before editing.2. The apparatus according to claim 1 , further comprising:a setting unit configured to set an image processing condition for executing image processing, based on an output characteristic that influences sharpness of an image output from an output apparatus; andan image processing unit configured to perform image processing on the edited image data by using the information, equivalent to the distance from the focal plane, corresponding to the edited image data, generated by the generation unit, and the image processing condition set by the setting unit.3. The apparatus according to claim 2 , wherein one of a defocus amount corresponding to each pixel of the image data claim 2 , a distance from the ...

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Номер записи: 73
09-01-2020 дата публикации

INSPECTION SUPPORT APPARATUS AND INSPECTION SUPPORT METHOD

Номер: US20200013179A1
Автор: AKIYAMA Naoyuki, HAYAKAWA Hirohisa, INOSE Kenji, Morimoto Naoki, TAIRA Yohei, TANIGUCHI Toshikazu
Принадлежит:

An inspection support apparatus according to an aspect includes a memory and a processor connected to the memory, and the processor is configured to obtain three-dimensional data of the structure that includes a plurality of planes formed by the frame; from the three-dimensional data, detect a plurality of first planes that include at least three points of the three-dimensional data; for each of the detected first planes, compute, from the three-dimensional data, a number of three-dimensional points at a distance that is equal to or shorter than a prescribed distance from the first plane; and according to the computed number of three-dimensional points, identify, from the detected plurality of first planes, a second plane positioned on a forefront of the frame of the structure. 1. An inspection support apparatus that supports an inspection related to a frame of building and civil-engineering structures , comprising:a memory; anda processor connected to the memory, wherein obtain three-dimensional data of the structure that includes a plurality of planes formed by the frame;', 'from the three-dimensional data, detect a plurality of first planes that include at least three points of the three-dimensional data;', 'for each of the detected first planes, compute, from the three-dimensional data, a number of three-dimensional points at a distance that is equal to or shorter than a prescribed distance from the first plane; and', 'according to the computed number of three-dimensional points, identify, from the detected plurality of first planes, a second plane positioned on a forefront of the frame of the structure., 'the processor is configured to'}2. The inspection support apparatus according to claim 1 , whereinthe processor identifies, as the second plane, a first plane having the largest computed number of three-dimensional points in the detected plurality of first planes.3. The inspection support apparatus according to claim 1 , whereinthe three-dimensional data ...

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Номер записи: 74
11-01-2018 дата публикации

ENDOSCOPE IMAGE DISPLAY APPARATUS, ENDOSCOPE IMAGE DISPLAY METHOD AND ENDOSCOPE IMAGE DISPLAY PROGRAM

Номер: US20180013973A1
Автор: FURUHATA Tsuyoshi
Принадлежит: OLYMPUS CORPORATION

An endoscope apparatus includes a display section with a touch panel having a left image display region and a right image display region and a control section. The control section is configured to perform display control so as to change, upon receiving a drag operation instruction while the left image display region selected, a position of a cursor displayed in the left image display region and the right image display region by an amount of variation da, and change, upon receiving a drag operation instruction while the right image display region selected, the position of the cursor displayed in the left image display region and right image display region by an amount of variation db. 1. An endoscope image display apparatus comprising:a display apparatus comprising a first image display region and a second image display region configured to display an endoscope image;a selection section configured to select one of the first image display region and the second image display region; anda display control section configured to perform display control so as to change, upon receiving a first operation instruction while the first image display region is selected by the selection section, a position of a mark or a display range of an image displayed in the first image display region and the second image display region, by a first amount of variation, and change, upon receiving a second operation instruction while the second image display region is selected by the selection section, the position of the mark or the display range of the image displayed in the first image display region and the second image display region, by a second amount of variation which is different from the first amount of variation.2. The endoscope image display apparatus according to claim 1 , wherein a first endoscope image displayed in the first image display region and a second endoscope image displayed in the second image display region have parallax with respect to each other.3. The endoscope ...

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Номер записи: 75
15-01-2015 дата публикации

HYBRID PRECISION TRACKING

Номер: US20150016680A1
Автор: Mack Newton Eliot, Mass Philip R.
Принадлежит:

Disclosed herein are through-the-lens tracking systems and methods which can enable sub-pixel accurate camera tracking suitable for real-time set extensions. That is, the through-the-lens tracking can make an existing lower precision camera tracking and compositing system into a real-time VFX system capable of sub-pixel accurate real-time camera tracking. With this enhanced level of tracking accuracy the virtual cameras can be used to register and render real-time set extensions for both interior and exterior locations. 1. A hybrid through-the-lens tracking system , comprising:a first system that includes a calibrated look-up table and is configured to use the calibrated look-up table to modify search locations for scene markers when using adjustable lenses for motion picture and television visual effects production;the first system is configured to transmit predicted 2D locations of the scene markers to a second system; andthe second system is configured to use a high speed GPU-based scene marker detection scheme that uses a fast geometry based search to calculate the predicted 2D locations of the centers of the scene markers.2. The system of wherein the high speed detection is under 10 milliseconds per marker.3. The system of wherein the high speed detection is between 2 and 10 milliseconds per marker.4. The system of wherein the first system further includes a data combiner operatively connected to the look-up table and a target XY predictor operatively connected to the data combiner.5. The system of wherein the system is embodied in a hardware component.6. The system of wherein the second system includes a motion blur removal stage claim 1 , a derivative detector claim 1 , a parallel line remover claim 1 , a circle center finder claim 1 , and a center voting module.7. The system of wherein the scene markers are circular markers.8. The system of wherein the scene markers are fiducial markers claim 1 , bar code markers or natural feature markers.9. A hybrid ...

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Номер записи: 76
03-02-2022 дата публикации

INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, PROGRAM, AND GROUND MARKER SYSTEM

Номер: US20220036037A1
Автор: MURAKOSHI Sho
Принадлежит: Sony Network Communications Inc.

To make it possible to set a parameter, which is used for detection of a mark attached to a ground marker, according to the feature of the mark. 1. An information processing method executed by a computer , the method comprising:acquiring a captured image and information reading an altitude at which the captured image is captured;detecting a feature of a target object in the captured image;determining a size of the target object on a basis of a combination of the detected feature and the altitude information; anddetecting, with circuitry, whether the target object is a predetermined object based on the altitude information and the determined size of the target object.2. The information processing method according to claim 1 ,wherein the detecting includes distinguishing the target object from a plurality of candidate objects based on the determined size and the detected feature of the target object.3. The information processing method according to claim 1 ,wherein the feature is a color or a color arrangement applied to the target object.4. The information processing method according to claim 3 ,wherein, under a condition where different colors are applied to the target object so as to be adjacent to each other, hues of the different colors differ by a predetermined threshold or more.5. The information processing method according to claim 1 ,wherein the feature is a shape of the target object.6. The information processing method according to claim 5 ,wherein at least one aspect of the shape includes a plurality of circles having different radii arranged concentrically.7. The information processing method according claim 1 ,wherein the target object is a mark attached to a ground marker.8. The information processing method according to claim 1 ,wherein the acquiring includes acquiring the captured image from a UAV mounted camera.9. The information processing method according to claim 8 ,wherein the acquiring includes reception of a wireless communication from the UAV ...

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Номер записи: 77
03-02-2022 дата публикации

CALIBRATION METHOD, ELECTRONIC DEVICE, AND STORAGE MEDIUM

Номер: US20220036587A1
Автор: Huang Rui, MA Zheng, SHI Jianping, YAN Guohang
Принадлежит: Sensetime Group Limited

A calibration method, an electronic device, and a storage medium are provided. The calibration method includes the following. A sample image is acquired with an image acquisition device. Initial pixel coordinates of multiple sample reference objects in the sample image in an image coordinate system are determined based on the sample image. Straight-line fitting is performed on sample reference objects on a same straight line based on the determined initial pixel coordinates of the sample reference objects in the image coordinate system, and the initial pixel coordinates of the sample reference objects involved in straight-line fitting are corrected based on fitted straight lines to obtain corrected pixel coordinates. A homography matrix of the image acquisition device is determined based on world coordinates of the multiple sample reference objects in the sample image in a world coordinate system and the obtained corrected pixel coordinates. 1. A calibration method , comprising:acquiring a sample image with an image acquisition device;determining, based on the sample image, initial pixel coordinates of a plurality of sample reference objects in the sample image in an image coordinate system;performing straight-line fitting, based on the determined initial pixel coordinates of the sample reference objects in the image coordinate system, on sample reference objects on a same straight line, and correcting, based on fitted straight lines, the initial pixel coordinates of the sample reference objects involved in straight-line fitting, to obtain corrected pixel coordinates; anddetermining, based on world coordinates of the plurality of sample reference objects in the sample image in a world coordinate system and the obtained corrected pixel coordinates, a homography matrix of the image acquisition device.2. The method of claim 1 , wherein performing straight-line fitting claim 1 , based on the determined initial pixel coordinates of the sample reference objects in the ...

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Номер записи: 78
19-01-2017 дата публикации

MULTI-STAGE METHOD OF GENERATING 3D CIVIL SITE SURVEYS

Номер: US20170018113A1
Автор: KHALOO Ali, LATTANZI DAVID
Принадлежит: George Mason University

A method of creating a three-dimensional model, based on two-dimensional (hereinafter “2D”) images is provided. The method includes acquiring a number of images of a number of physical locations, wherein each image is associated with one image group of a number of hierarchical image groups, the number of hierarchical image groups including a base image group, converting images within a group to a number of 3D models, wherein each 3D model is associated with one model group of a number of hierarchical model groups, the number of hierarchical model groups including a base model group, merging a number of the 3D models from the base model group and a number of 3D models from another 3D model group to create a multi-scale 3D model, and utilizing the multi-scale 3D model. 1. A method of creating a three dimensional model based on two dimensional images comprising:acquiring a number of images of a number of physical locations, wherein each said image is associated with one image group of a number of hierarchical image groups, said number of hierarchical image groups including a base image group and a top image group;converting images within a group to a number of 3D models, wherein each said 3D model is associated with one model group of a number of hierarchical model groups, said number of hierarchical model groups including a base model group and a top model group;merging a number of said 3D models from said base model group and a number of 3D models from another 3D model group to create a multi-scale 3D model; andutilizing said multi-scale 3D model.2. The method of wherein acquiring a number of images includes acquiring a number of pictures of a number of physical locations claim 1 , wherein each said picture is associated with one picture group of a number of hierarchical picture groups claim 1 , said number of hierarchical picture groups including a base picture group claim 1 , a number of intermediate hierarchical picture groups claim 1 , and a top picture group.3. ...

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Номер записи: 79
21-01-2021 дата публикации

OBSTACLE DETECTION SYSTEMS AND METHODS

Номер: US20210018646A1
Автор: Boyle Patrick R., Hoang Phuong, Lascaud Benjamin, SOOFI Khalid A.
Принадлежит:

A system and method of detecting subsurface karst features includes receiving surface mapping data. A potential surface pad location can be identified in view of the surface mapping data. A resistivity survey for the potential surface pad location can be designed. The resistivity survey can include at least one long line extending through a surface hole for each of one or more wellbores in the potential surface pad location, and a short line extending through the surface hole of one of the one or more wellbores, each short line intersecting the long line substantially at the surface hole of one of the one or more wellbores. High resistivity areas exceeding approximately 150 Ohm per meter can be identified as sub surface karst features within the resistivity survey. 1. A method for avoiding obstacles within a subterranean formation , the method comprising:receiving surface mapping data from one or more satellite images of an area of interest corresponding to the subterranean formation;receiving surface topography data of the area of interest from one or more light detection and ranging (LiDAR) systems;receiving an airborne gravity data set of the area of interest;receiving a seismic data set of the area of interest;identifying a potential surface pad location using at least one of the surface mapping data, the surface topography data, the airborne gravity data set, or the seismic data set, the potential surface pad location including a surface hole for each of one or more wellbores;generating a resistivity survey for the potential surface pad location, the resistivity survey including at least one long line extending through the surface hole for each of the one or more wellbores and at least one short line extending through the surface hole of one of the one or more wellbores, each short line intersecting the long line at the surface hole of one of the one or more wellbores; anddetermining whether one or more subsurface karst features are present within the ...

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Номер записи: 80
03-02-2022 дата публикации

SYSTEM FOR PLANETARY-SCALE ANALYTICS

Номер: US20220038172A1
Автор: Kargieman Emiliano, Richarte Gerardo Gabriel
Принадлежит:

A smart satellite system is capable of decision making and prioritization on the fly to optimize the use of downlink bandwidth to deliver prioritized data based upon opportunity and the resources of available payloads. By providing a satellite system with substantial processing power and a level of autonomy, the satellite is able to make decisions about capturing imagery data, including image data processing, object detection, image segmentation, and re-orientation of the satellite based upon the opportunity, from the satellite's perspective, for capturing image data of areas or objects of interest. Through the use of machine learning and in-orbit image analysis, the satellite may transmit only a subset of the captured images, portions of the captured images, or the result of image analysis, thereby efficiently using the downlink communication channel. 1. A satellite system , comprising:one or more sensors;one or more processors; receive sensor data from the one or more sensors;', 'analyze, based at least in part on an artificial intelligence configuration stored on board the satellite system, the sensor data to generate analysis results; and', 'store the analysis results in memory on-board the satellite system for further processing, for transmission to another location, or for further analysis., 'memory coupled to the one or more processors, the memory including one or more modules that are executable by the processors to2. The system as in claim 1 , wherein the sensor data includes image data and the analysis results include information associated with at least one object or feature of interest on the surface of the earth.3. The system as in claim 2 , wherein the one or more modules are further executable to determine claim 2 , based upon the information associated with the at least one object or feature of interest on the surface of earth claim 2 , a second set of instructions to be executed by the one or more processors.4. The system as in claim 3 , wherein the ...

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Номер записи: 81
16-01-2020 дата публикации

CUT-LINE STEERING METHODS FOR FORMING A MOSAIC IMAGE OF A GEOGRAPHICAL AREA

Номер: US20200020078A1
Автор: Bradacs Robert, Giuffrida Frank, Gray Robert, Schultz Stephen
Принадлежит:

Systems and methods are disclosed for creating a mosaic image of two or more geo-referenced source images, the geo-referenced source images having the same orientation, based on a ground confidence map created by analyzing pixels of one or more of the geo-referenced source images, the ground confidence map having values and data indicative of particular geographic locations represented by the values, at least one of the values indicative of a statistical probability that the particular geographic locations represented by the values represents the ground; and using routes for steering mosaic cut lines based at least in part on the values indicative of the statistical probability that the particular geographic locations represented by the values represents the ground of the ground confidence map, such that the routes have an increased statistical probability of cutting through pixels representative of the ground versus routes not based on the ground confidence map. 1. An apparatus for creating a mosaic image , comprising: 'creating a mosaic image of two or more geo-referenced source images, the geo-referenced source images having a same orientation, based on a ground confidence map created by analyzing pixels of one or more of the geo-referenced source images, the ground confidence map having values and data indicative of particular geographic locations represented by the values, at least one of the values indicative of a statistical probability that the particular geographic locations represented by the values represents the ground; and using routes for steering mosaic cut lines based at least in part on the values indicative of the statistical probability that the particular geographic locations represented by the values represents the ground of the ground confidence map, such that the routes have an increased statistical probability of cutting through pixels representative of the ground versus routes not based on the ground confidence map.', 'one or more non- ...

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Номер записи: 82
16-01-2020 дата публикации

THREE-DIMENSIONAL SHAPE MEASUREMENT DEVICE, THREE-DIMENSIONAL SHAPE MEASUREMENT METHOD, AND PROGRAM

Номер: US20200020119A1
Автор: HAYASHI Kennosuke, Ohnishi Yasuhiro, Suwa Masaki
Принадлежит: Omron Corporation

A control device assumes that observation light observed by an imaging device is composite light of primary reflection light and secondary reflection light. The control device acquires three or more samples of a brightness amplitude value of the observation light, calculates a phase error caused by the secondary reflection light using these samples, calculates a corrected phase value by correcting a phase value of the observation light using the phase error, and calculates a three-dimensional position of the measurement point on the measurement object based on the corrected phase value. 2. The three-dimensional shape measurement device according to claim 1 ,wherein the three or more samples are samples, wherein conditions of the samples are different in at least one of: the position of the pixel on the observation image; and the spatial frequency of the pattern.3. The three-dimensional shape measurement device according to claim 1 ,wherein the three or more samples are brightness amplitude values that are observed for three or more pixels on the observation image using one type of frequency pattern,wherein the three or more pixels are pixels such that phases of the pattern at positions of the pixels are different from each other.4. The three-dimensional shape measurement device according to claim 3 , wherein the three or more pixels are selected from a local region on the observation image.5. The three-dimensional shape measurement device according to claim 3 , wherein the three or more pixels are pixels which line up in a direction parallel with an epi-polar line on the observation image.6. The three-dimensional shape measurement device according to claim 1 , wherein the three or more samples are brightness amplitude values observed for one pixel on the observation image using three or more types of frequency patterns.7. The three-dimensional shape measurement device according to claim 1 ,wherein the control device is configured to:store reference information that ...

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Номер записи: 83
21-01-2021 дата публикации

IMAGE PROCESSING APPARATUS

Номер: US20210019902A1
Автор: ARAI Shuji
Принадлежит:

An image processing apparatus includes a representative-distance calculator and a joining processor. The representative-distance calculator generates representative distance values of the basis of a distance image generated from a stereo image including an image of at least one object including a vehicle. The distance image includes distance values of pixels. The joining processor performs a joining process of joining a first image region and a second image region that are defined based on the image of the at least one object in the stereo image, performs a determining process of determining whether a temporarily joined region in which the first image region and the second image region are temporarily joined includes an image of a corner portion of the vehicle, and refrains from performing the joining process when the temporarily joined region includes the image of the corner portion. 1. An image processing apparatus comprising:a representative-distance calculator configured to generate a plurality of representative distance values on a basis of a distance image generated from a stereo image, the stereo image including an image of at least one object including a vehicle, the distance image including distance values of pixels, the representative distance values corresponding to different pixel columns in the distance image and each being a representative value of the distance values of a corresponding one of the pixel columns; anda joining processor configured to perform a joining process of joining a first image region and a second image region that are defined on a basis of the image of the at least one object in the stereo image, wherein perform a determining process of determining whether a temporarily joined region in which the first image region and the second image region are temporarily joined includes an image of a corner portion of the vehicle, and', 'refrain from performing the joining process when the temporarily joined region includes the image of the ...

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Номер записи: 84
25-01-2018 дата публикации

AERIAL IMAGE COLLECTION

Номер: US20180024551A1
Автор: Tillmann Marco
Принадлежит:

In one embodiment, an aerial collection system includes an image collection field vehicle that travels at street level and an image collection aerial vehicle that travels in the air above the street. The aerial vehicle collects image data including at least a portion of the field vehicle. The field vehicle includes a marker, which is identified from the collected image data. The marker is analyzed to determine an operating characteristic of the aerial vehicle. In one example, the operating characteristic in the marker includes information for a flight instruction for the aerial vehicle. In another example, the operating characteristic in the marker includes information for the three dimensional relationship between the vehicles. The three dimensional relationship is used to combine images collected from the air and images collected from the street level. 1. A method comprising:collecting, at an aerial vehicle, image data depicting a terrestrial vehicle;analyzing the image data depicting the terrestrial vehicle for a flight command; andapplying, at the aerial vehicle, a flight path in response to flight command.2. The method of claim 1 , wherein applying the flight path further comprises:maintaining a distance between the aerial vehicle and the terrestrial vehicle in response to the flight command.3. The method of claim 1 , wherein applying the flight path further comprises:providing an individual directional command to the aerial vehicle in response to the flight command.4. The method of claim 1 , wherein applying the flight path further comprises:guiding the aerial vehicle toward the terrestrial vehicle in response to the flight command.5. The method of claim 4 , wherein the flight command is generated in response to a tunnel claim 4 , overpass claim 4 , or other obstruction.6. The method of claim 1 , wherein the flight command is encoded in the image data as a predetermined code.7. The method of claim 6 , wherein the predetermined code is a quick response (AR) ...

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Номер записи: 85
10-02-2022 дата публикации

APPARATUS AND METHOD FOR UPDATING DETAILED MAP

Номер: US20220042823A1
Автор: Lee Seong Soo
Принадлежит:

In accordance with an aspect of the present disclosure, there is provided a method of updating a high definition map. The method comprises, acquiring two-dimensional images at a plurality of different locations by using a camera mounted on a vehicle; checking a moving trajectory of the camera for acquiring the two-dimensional images; generating a local landmark map by estimating, based on surface information of a road in the high definition map, a three-dimensional position of a landmark for a lane marking around the moving trajectory of the camera; and updating the high definition map based on the local landmark map. 1. A method of updating a high definition map , the method comprising:acquiring two-dimensional images at a plurality of different locations by using a camera mounted on a vehicle;checking a moving trajectory of the camera for acquiring the two-dimensional images;generating a local landmark map by estimating, based on surface information of a road in the high definition map, a three-dimensional position of a landmark for a lane marking around the moving trajectory of the camera; andupdating the high definition map based on the local landmark map.2. The method of claim 1 , wherein the checking the moving trajectory of the camera is checking the moving trajectory of the camera by comparing the two-dimensional images acquired at a plurality of the different locations claim 1 , andwherein the generating the local landmark map includes:generating a three-dimensional first local landmark map corresponding to the moving trajectory of the camera by using a first landmark excluding a lane marking among landmarks on the two-dimensional image; andgenerating a second local landmark map by estimating a three-dimensional position of a second landmark for the lane marking in the first landmark map based on the surface information of the road in the high definition map.3. The method of claim 2 , wherein the generating the second local landmark map includes:matching ...

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Номер записи: 86
10-02-2022 дата публикации

DEVICE, METHOD AND SYSTEM FOR DETERMINING FLIGHT HEIGHT OF UNMANNED AERIAL VEHICLE

Номер: US20220044434A1
Автор: CHU Bingquan, HE Liwen, He Yong
Принадлежит:

A method and system for determining flight height of an unmanned aerial vehicle (UAV) includes a determining device that includes a camera at bottom of the is UAV carried on a three-axis self-stabilizing tripod head; and a carrier phase difference satellite positioning system (CPDSPS), a graphics processing computer (GPC) and a power supply system provided on top of the UAV The GPC is connected with the CPDSPS, the power supply system and the camera, respectively. An attitude and heading reference system (AHRS) is provided at the bottom of the three-axis self-stabilizing tripod head and connected with the GPC The GPC is configured to determine relative height of the UAV from a canopy of farmland surface crops according to position information acquired by the CPDSPS, attitude information acquired by the AHRS and ground orthographic image acquired by the camera, and determine flight height of the UAV according to the relative height. 1. A device for determining the flight height of an unmanned aerial vehicle , comprising:an unmanned aerial vehicle;a three-axis self-stabilizing tripod head;a carrier phase difference satellite positioning system;an attitude and heading reference system;a graphics processing computer; anda power supply system, wherein;a camera at the bottom of the unmanned aerial vehicle is carried on the three-axis self-stabilizing tripod head, and the three-axis self-stabilizing tripod head is used to maintain an optical axis of the camera;the carrier phase difference satellite positioning system, the graphics processing computer and the power supply system are all provided on top of the unmanned aerial vehicle;the graphic processing computer is connected with the carrier phase difference satellite positioning system, the power supply system and the camera, respectively;the attitude and heading reference system is provided at bottom of the three-axis self-stabilizing tripod head and is connected with the graphics processing computer;the graphic ...

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Номер записи: 87
28-01-2016 дата публикации

System and Method for Analysis of Surface Features

Номер: US20160029006A1
Автор: Yilmaz Alper, Zoken Jack Marshall
Принадлежит:

Disclosed is a system and method for documenting and analyzing a tire tread using a guidance dolly for use in creating a three-dimensional image file of a target object from a plurality of two-dimensional image files including: a first dolly surface adapted to enable placement of the guidance dolly into physical contact with the target object; a second dolly surface generally conforming to the shape of the first dolly surface; and a guide channel for guiding a digital imaging device along a specified path so as to acquire the plurality of two-dimensional image files of the target object. 1. A guidance dolly suitable for use in creating a three-dimensional image file of a target object from a plurality of two-dimensional image files of the target object as obtained by a digital imaging device , said guidance dolly comprising:a first dolly surface generally conforming to a selected surface region of the target object, said first dolly surface adapted to enable placement of said guidance dolly into physical contact with said selected surface region of the target object;a second dolly surface having a shape generally conforming to the shape of said first dolly surface; anda guide channel extending between said first dolly surface and said second dolly surface, said guide channel for guiding the digital imaging device along a specified path so as to enable the digital imaging device to acquire the plurality of two-dimensional image files of the target object.2. The guidance dolly of further comprising a light source disposed to illuminate the selected surface region of the target object.3. A system suitable for use in monitoring observable changes to a selected surface region of a target object claim 1 , said system comprising:a digital imaging device for acquiring a plurality of two-dimensional image files of the selected surface region;a guidance dolly for placement against the target object when the plurality of two-dimensional image files are being acquired, said ...

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Номер записи: 88
23-01-2020 дата публикации

METHOD AND DEVICE FOR INCREASING THE ACCURACY OF LOCALIZATION

Номер: US20200025945A1
Автор: Hamer Henning, Hamperl Helmut, Holger Karn, Mattmüller Karsten
Принадлежит:

A method and a device for increasing the accuracy of localization. The method includes the following steps: a) detecting a selected object in an environment, using a camera of a first vehicle; b) estimating a first position of the selected object, wherein a first program uses first location coordinates of the first vehicle and a first distance estimate to the selected object; c) transferring an attribute of the selected object, the first location coordinates and the first distance estimate to a server; d) carrying out the steps a) to c) for a second vehicle; e) calculating a third position of the selected object by the server, wherein a third program performs an averaging of the plurality of location coordinates and distance estimates; f) using the third position of the selected object as a reference position for increasing the accuracy of a localization of a third vehicle. 1. A device for increasing the accuracy of localization in a vehicle , which comprises a computation and control device , which is configured to perform operations comprising:a) detecting a selected object in an environment, using a camera of a first vehicle;b) estimating a first position of the selected object, by means of a first program for localization, in the first vehicle,wherein the first program uses first location coordinates of the first vehicle and a first distance estimate to the selected object;c) transferring an attribute of the selected object, the first location coordinates and the first distance estimate to a server;d) carrying out the steps a) to c) for the selected object, to estimate a second position of the selected object, using a camera of a second vehicle, by means of a second program for localization, using second location coordinates and a second distance estimate;e) calculating a third position of the selected object by the server, by means of a third program, using an attribute of the selected object, the first and the second location coordinates and the first and the ...

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Номер записи: 89
28-01-2021 дата публикации

TARGET POSITIONING WITH ELECTRONIC DISTANCE MEASURING AND BUNDLE ADJUSTMENT

Номер: US20210025705A1
Автор: Kahle Kent, LEE YOUNG JIN, MONTGOMERY Paul, Seidler Malte, Winter Andreas
Принадлежит:

A Position and Orientation Measurement Engine (POME) is a mobile camera system that can be used for accurate indoor measurement (e.g., at a construction site). The POME uses a plurality of cameras to acquire images of a plurality of targets. If locations of the plurality of targets are precisely known, images of the targets can be used to determine a position of the POME in relation to the plurality of targets. However, to precisely determine locations of the plurality of targets can be time consuming and/or use expensive equipment. This disclosure discusses how to use a camera system with an electronic distance measuring unit to determine locations of the plurality of targets. 1. A system comprising:a rotatable housing;an electronic distance measuring unit integrated with the rotatable housing;an imager integrated with the rotatable housing, wherein the imager is configured to rotate vertically and horizontally with the electronic distance measuring unit;a camera, wherein the camera is configured to not rotate vertically with the electronic distance measuring unit; and [ the camera is configured to acquire at least a portion of the plurality of images, and', 'locations of targets are not known;, 'acquiring a plurality of images of a plurality of targets while the system is at a position, wherein, 'estimating heights of the plurality of targets based on the plurality of images of the plurality of targets;', 'measuring, using the electronic distance measuring unit, distances of the plurality of targets to the system while the system is placed at the position; and', 'calculating target locations based on the plurality of images, including using estimated heights of the plurality of targets based on the plurality of images, and distances measured from the plurality of targets to the system., 'one or more processors configured to perform the following steps2. The system of claim 1 , wherein the camera is part of the rotatable housing.3. The system of claim 1 , wherein ...

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Номер записи: 90
25-01-2018 дата публикации

IMAGING DEVICE FOR SCENES IN APPARENT MOTION

Номер: US20180027161A1
Автор: Kargieman Emiliano, Richarte Gerado Gabriel, Vuletich Juan Manuel
Принадлежит:

Imaging systems and methods for imaging of scenes in apparent motion are described. A multi-axis positioning mechanism is operable to move an area imaging device along a tracking axis. A control module directs the multi-axis positioning mechanism to set the tracking axis to be substantially parallel with the apparent motion, and directs the multi-axis positioning mechanism to move the area imaging device in one or more cycles such that the area imaging device moves, in each of the one or more cycles, forward along the tracking axis at a tracking speed that compensates for the apparent motion. The control module directs the area imaging device to take at least one exposure during each of the one or more cycles to generate one or more exposures. An imaging module forms an image of the scene based on the one or more exposures. 1an area imaging device having a plurality of pixel sensors;a multi-axis positioning mechanism, the multi-axis positioning mechanism operable to move the area imaging device along a tracking axis; direct the multi-axis positioning mechanism to set the tracking axis to be at least substantially parallel with the apparent motion;', 'direct the multi-axis positioning mechanism to move the area imaging device in one or more cycles such that the area imaging device is moved, in each of the one or more cycles, forward along the tracking axis at a tracking speed that compensates for a speed of the apparent motion; and', 'direct the area imaging device to take at least one exposure during each of the one or more cycles to generate one or more exposures; and, 'a control module configured toan imaging module configured to form an image of the scene based at least one the one or more exposures.. An apparatus for imaging a scene having apparent motion, the apparatus comprising: This patent application is a continuation of, and claims priority to, co-pending U.S. patent application Ser. No. 14/703,859 filed May 5, 2015, entitled “IMAGING DEVICE FOR SCENES IN ...

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Номер записи: 91
25-01-2018 дата публикации

Display device, method of controlling thereof and display system

Номер: US20180027175A1
Автор: Yun-seong CHO
Принадлежит: SAMSUNG ELECTRONICS CO LTD

A display device is disclosed. The display device according to various exemplary embodiments includes a display, a communicator configured to communicate with an external device, a first nearby device, and a second nearby device, and a processor configured to control the communicator to transmit each of a first image which is received from the external device and a second image which is received from the first nearby device to the second nearby device, and control the display to display at least one of the first image and the second image.

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Номер записи: 92
23-01-2020 дата публикации

CONSTRUCTION AND UPDATE OF ELEVATION MAPS

Номер: US20200026720A1
Автор: Liu Ang, SHEN Shaojie, ZHANG Litian
Принадлежит:

A method of building a two-dimensional (2D) elevation map includes receiving sensor data regarding a 2D coordinate in a 2D coordinate system, computing a surface height for the 2D coordinate based on the sensor data, assigning a confidence indicator to the computed surface height based on the sensor data, and storing the computed surface height and the assigned confidence indicator for the 2D coordinate in a database, thereby building the 2D elevation map. The sensor data is acquired by one or more sensors of an aerial vehicle; 1. A method of building a two-dimensional (2D) elevation map , comprising:receiving sensor data regarding a 2D coordinate in a 2D coordinate system, wherein the sensor data is acquired by one or more sensors of an aerial vehicle;computing, based on the sensor data, a surface height for the 2D coordinate;assigning, based on the sensor data, a confidence indicator to the computed surface height; andstoring the computed surface height and the assigned confidence indicator for the 2D coordinate in a database, thereby building the 2D elevation map.2. The method of claim 1 , wherein the surface height is computed relative to a reference level claim 1 , and wherein the reference level is a ground level or a sea level.3. The method of claim 1 , further comprising:receiving one or more parameters associated with the one or more sensors of the aerial vehicle when the sensor data is acquired; andtransforming, based on the one or more parameters, the received sensor data from a body coordinate system defined relative to the aerial vehicle into the 2D coordinate system.4. The method of claim 3 , wherein the one or more parameters are related to a spatial relationship between the one or more sensors of the aerial vehicle and the aerial vehicle.5. The method of claim 1 , wherein the confidence indicator indicates a relationship between the computed surface height and an actual surface height for the 2D coordinate.6. The method of claim 1 , wherein:the ...

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Номер записи: 93
23-01-2020 дата публикации

Backup Navigation System for Unmanned Aerial Vehicles

Номер: US20200026902A1
Автор: Damien Jourdan, Dinuka Abeywardena
Принадлежит: Wing Aviation LLC

Described is a method that involves operating an unmanned aerial vehicle (UAV) to begin a flight, where the UAV relies on a navigation system to navigate to a destination. During the flight, the method involves operating a camera to capture images of the UAV's environment, and analyzing the images to detect features in the environment. The method also involves establishing a correlation between features detected in different images, and using location information from the navigation system to localize a feature detected in different images. Further, the method involves generating a flight log that includes the localized feature. Also, the method involves detecting a failure involving the navigation system, and responsively operating the camera to capture a post-failure image. The method also involves identifying one or more features in the post-failure image, and determining a location of the UAV based on a relationship between an identified feature and a localized feature.

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Номер записи: 94
01-02-2018 дата публикации

DEPTH MEASUREMENT USING A PHASE GRATING

Номер: US20180031372A1
Автор: Gill Patrick R.
Принадлежит:

Binocular depth-perception systems use binary, phase-antisymmetric gratings to cast point-source responses onto an array of photosensitive pixels. The gratings and arrays can be manufactured to tight tolerances using well characterized and readily available integrated-circuit fabrication techniques, and can thus be made small, cost-effective, and efficient. The gratings produce point-source responses that are large relative to the pitch of the pixels, and that exhibit wide ranges of spatial frequencies and orientations. Such point-source responses make it easy to distinguish the point-source responses from fixed-pattern noise the results from spatial frequencies of structures that form the array. 1. A method of measuring a depth to an object in a scene , the method comprising:receiving light in a wavelength band of interest from the scene at a phase grating, the phase grating inducing near-field spatial modulations producing a diffraction pattern;capturing an image of the diffraction pattern;computing a disparity between the image and a reference; andestimating the depth to the object based on the disparity.2. The method of claim 1 , wherein the phase grating is a first phase grating claim 1 , the method further comprising:receiving the light from the scene at a second phase grating, the second phase grating inducing second near-field spatial modulations producing a second diffraction pattern;capturing a second image of the second diffraction pattern; andusing the second image as the reference.3. The method of claim 2 , wherein estimating the depth comprises computed a distance between the image and the second image.4. The method of claim 1 , further comprising shining a laser source of the light on the object.5. The method of claim 4 , further comprising filtering out second light outside the wavelength band of interest.6. The method of claim 5 , wherein the filtering uses at least one of a color filter and a cross-polarized filter.7. The method of claim 1 , ...

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Номер записи: 95
31-01-2019 дата публикации

METHOD AND MEASURING SYSTEM FOR REGISTERING A FIXED POINT ADJACENT A TRACK

Номер: US20190031217A1
Автор: BUERGER Martin, ZAUNER Gerald
Принадлежит:

A method of determining the actual position of a track relative to a fixed point located in a lateral vicinity of the track by using a registering device being mobile on the track includes surveying the position of the fixed point relative to the track. The registering device is moved along the track, image pairs of the lateral vicinity of the track are continuously recorded by a stereo camera system on the registering device and the fixed point is searched for in the image pairs by pattern recognition carried out in an evaluation device. Upon recognition of the fixed point, the position of the fixed point relative to the track is determined by evaluating at least one image pair. This creates the possibility of surveying fixed points in passing with the configuration of the fixed point not being bound to any special form. A measuring system is also provided. 115-. (canceled)16. A method of determining the actual position of a track relative to a fixed point located in a lateral vicinity of the track , the method comprising the following steps:providing a registering device being mobile on the track for surveying the position of the fixed point relative to the track;moving the registering device along the track while continuously recording image pairs of the lateral vicinity of the track by using a stereo camera system disposed on the registering device;searching for the fixed point in the image pairs by pattern recognition carried out in an evaluation device; andupon identification of the fixed point, determining the position of the fixed point relative to the track by evaluation of at least one of the image pairs.17. The method according to claim 16 , which further comprises using an inertial measuring unit to continuously register a position of the registering device relative to a stationary reference system claim 16 , and correcting a resulting drift by using the determined position of the fixed point.18. The method according to claim 16 , which further comprises ...

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Номер записи: 96
02-02-2017 дата публикации

ASSISTED 3D SCENE COMPARISON

Номер: US20170032156A1
Автор: Ahern Brian, Schoner Bernd
Принадлежит: TRIMBLE NAVIGATION LIMITED

Methods and systems for inspection, safety assurance, tracking, and/or as-built comparison use an imaging tool to acquire imaging data of a scene. The imaging data is processed to create a three-dimensional representation of the scene. Radio frequency (RF) data is received from an RF tag using an RF reader. The RF tag is associated with an object within the scene. The object in the three-dimensional representation of the scene is identified based on the RF data and compared to a model of the object. 17.-. (canceled)8. A method of collecting information for inspection , safety assurance , tracking , and/or as-built comparison , the method comprising:acquiring imaging data of a scene using an imaging tool;creating a three-dimensional representation of the scene based on the imaging data;receiving radio frequency (RF) data stored in an RF tag using an RF reader, wherein the RF tag is associated with an object within the scene;identifying the object in the three-dimensional representation of the scene based on the RF data; andcomparing the object in the three-dimensional representation to a model of the object.9. The method of further comprising identifying differences between the object as built in the three-dimensional representation and the model.10. The method of claim 8 , wherein the method is performed for an inspection.11. The method of claim 8 , wherein the method is performed for safety assurance.12. The method of claim 8 , wherein the method is performed for asset management.13. The method of claim 8 , wherein the model represents a desired configuration of the scene.14. The method of claim 8 , wherein the object is fixed.15. The method of claim 8 , wherein the RF tag is a passive RFID tag.16. The method of claim 8 , wherein acquiring imaging data comprises multiple scans by the imaging tool and a time delay between the multiple scans.17. A system for collecting information for inspection claim 8 , safety assurance claim 8 , tracking claim 8 , and/or as-built ...

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Номер записи: 97
30-01-2020 дата публикации

Method and apparatus for precise determination of a position of a target on a surface

Номер: US20200030683A1
Автор: Kyle SNOW, Raymond M. O'Connor, Xiankun Wang
Принадлежит: Topcon Positioning Systems Inc

A method and apparatus for determining the precise location of a target on a surface by utilizing a plurality of objects that are fixed in their position proximate to the location, thereby constituting a plurality of fixed reference points, upon which the target(s) resides or is otherwise located. The plurality of fixed references points are used either in conjunction with images of the target or certain distance measurements between the target and the fixed reference points to determine the precise location of the target(s) on the surface.

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Номер записи: 98
31-01-2019 дата публикации

USING PHOTOGRAMMETRY TO AID IDENTIFICATION AND ASSEMBLY OF PRODUCT PARTS

Номер: US20190033072A1
Автор: Bender Michael, Childress Rhonda L., Kumhyr David B., Spisak Michael J.
Принадлежит:

A user may be aided in modifying a product that is an assemblage of parts. This aid may involve a processor obtaining images of a target part captured by the user on a mobile device camera. The processor may compare, based on the captured images and a plurality of images of identified parts, the target part to the identified parts. Based on the comparison, the processor may determine an identity of the target part. This aid may also involve a processor obtaining images of a first configuration of a partial assembly of the product captured by a mobile device camera. The processor may compare, based on the captured images, the first configuration to a correct configuration of the partial assembly. Based on the comparison, the processor may determine that the first configuration does not match the correct configuration and may notify the user accordingly. 1. A computer-implemented method for aiding a user in modifying a product , wherein the product is an assemblage of a plurality of parts , the method comprising:obtaining, by a processor, a plurality of images of a target part of the product captured by the user on a camera;generating, by the processor and based on the plurality of images of the target part, a three-dimensional model of the target part;comparing, by the processor, the target part to a plurality of identified parts by overlaying a three-dimensional model of each identified part onto the three-dimensional model of the target part; anddetermining, by the processor and based on the comparing, an identity of the target part.2. The method of claim 1 , further comprising:notifying the user of the identity of the target part.3. The method of claim 1 , further comprising:obtaining an identifier of the product, wherein the product identifier is selected by the user; andselecting, prior to the comparing and by the processor, the three-dimensional models of the identified parts from a database based on the obtained product identifier.4. The method of claim 3 , ...

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Номер записи: 99
31-01-2019 дата публикации

INSPECTION PROCESSING SYSTEM, INSPECTION PROCESSING METHOD, AND INSPECTION PROCESSING PROGRAM

Номер: US20190033074A1
Автор: GOTO Kazuyuki, HORII Tamaki, Ikeda Yuichi, TAKENAKA Hidefumi, Yamamoto Takayuki
Принадлежит: OBAYASHI CORPORATION

An inspection processing system identifies a current position, obtains an inspection result of an inspection subject of a structure on the current position, and records the inspection result in association with the position of the inspection subject in a three-dimensional model of the structure. The inspection processing system further identifies a user who views the three-dimensional model and a current position, and outputs, to an output unit, an inspection result in which the user is recorded in an inspection information memory as a related person of the inspection subject. The inspection result is attached on a virtual image according to a three-dimensional model corresponding to the current position. 1. An inspection processing system comprising circuitry , wherein the circuitry is configured to execute: identify a current position,', 'obtain an inspection result of an inspection subject of a structure on the current position, and', 'record the inspection result in association with the position of the inspection subject in a three-dimensional model of the structure; and, 'a registration process to'} identify a user who views the three-dimensional model and a current position, and', 'output, to an output unit, an inspection result in which the user is recorded in an inspection information memory as a related person of the inspection subject, wherein the inspection result is attached on a virtual image according to a three-dimensional model corresponding to the current position., 'a displaying process to'}2. The inspection processing system according to claim 1 , wherein the circuitry is configured toidentify a visual range of a photographing unit that photographs the structure, andoutput the inspection result of the inspection subject included in the visual range in the three-dimensional model.3. The inspection processing system according to claim 1 , wherein the circuitry is configured toidentify a related person who shares information based on constructor ...

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Номер записи: 100