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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 13. Отображено 13.
23-01-2018 дата публикации

System and method for optimal load and source scheduling in context aware homes

Номер: US0009874885B2

A controller for controlling energy consumption in a home includes a constraints engine to define variables for multiple appliances in the home corresponding to various home modes and persona of an occupant of the home. A modeling engine models multiple paths of energy utilization of the multiple appliances to place the home into a desired state from a current context. An optimal scheduler receives the multiple paths of energy utilization and generates a schedule as a function of the multiple paths and a selected persona to place the home in a desired state.

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04-05-2017 дата публикации

CROWD COMFORTABLE SETTINGS

Номер: US20170123440A1
Принадлежит:

Methods, devices, and systems for crowd comfortable settings are described herein. One device includes a memory, and a processor configured to execute executable instructions stored in the memory to receive a number of weighted occupant preferences of a building space, receive a number of internal variables of the building space and a number of external variables of the building space, determine whether each weighted occupant preference is feasible, and modify a setting for the number of internal variables of the building space based on whether the number of feasible occupant preferences is greater than a threshold number. 1. A controller for determining crowd comfortable settings , comprising:a memory; receive a number of weighted occupant preferences of a building space;', 'receive a number of internal variables of the building space and a number of external variables of the building space;', 'determine whether each weighted occupant preference is feasible using a persona model of each occupant of the building space, the number of occupant preferences, the number of internal variables of the building space, the number of external variables of the building space, building space settings for the number of internal variables of the building space, and setting thresholds for the number of internal variables of the building space; and', 'modify a setting for the number of internal variables of the building space based on whether the number of feasible occupant preferences is greater than a threshold number., 'a processor configured to execute executable instructions stored in the memory to2. The controller of claim 1 , wherein the feasibility of each occupant preference by a learning model.3. The controller of claim 1 , wherein the weighted occupant preferences are based on the persona model of each occupant claim 1 , and wherein the persona model of each occupant includes:identity information; andpast occupant preferences.4. The controller of claim 1 , wherein the ...

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31-01-2013 дата публикации

SYSTEMS AND METHODS FOR MANAGING A PROGRAMMABLE THERMOSTAT

Номер: US20130030600A1
Принадлежит: HONEYWELL INTERNATIONAL INC.

Systems and methods for managing a programmable thermostat are described herein. One or more system embodiments include a programmable thermostat having a first management profile; a data acquisition subsystem; and a data analysis subsystem. The data acquisition subsystem is configured to receive thermostat data from the programmable thermostat, and the data analysis subsystem is configured to receive the thermostat data from the data acquisition subsystem, and determine a second management profile for the programmable thermostat based, at least in part, on the thermostat data. 1. A system for managing a programmable thermostat , comprising:a programmable thermostat having a first management profile;a data acquisition subsystem configured to receive thermostat data from the programmable thermostat; and receive the thermostat data from the data acquisition subsystem; and', 'determine a second management profile for the programmable thermostat based, at least in part, on the thermostat data., 'a data analysis subsystem configured to2. The system of claim 1 , wherein the data acquisition subsystem is included in a single computing device communicatively coupled to the programmable thermostat and the data analysis subsystem.3. The system of claim 1 , wherein the data acquisition subsystem is included in a mobile device associated with a user of the programmable thermostat.4. The system of claim 1 , wherein the data analysis subsystem is configured to receive location data from a mobile device that indicates that a user is returning to a structure managed by the programmable thermostat.5. The system of claim 1 , wherein the data analysis subsystem is configured to receive occupancy data that indicates whether a user is present in a structure managed by the programmable thermostat.6. The system of claim 1 , wherein the data analysis subsystem is configured to communicate the second management profile to a user according to a predetermined schedule.7. The system of claim 1 ...

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31-01-2013 дата публикации

DEVICES, METHODS, AND SYSTEMS FOR OCCUPANCY DETECTION

Номер: US20130030732A1
Принадлежит: HONEYWELL INTERNATIONAL INC.

Devices, methods, and systems for occupancy detection are described herein. One device embodiment includes a memory and a processor coupled to the memory. The processor is configured to execute executable instructions stored in the memory to determine energy consumption data associated with a structure at a point in time, and determine whether the structure is occupied at the point in time based, at least in part, on the determined energy consumption data. 1. A computing device for occupancy detection , comprising:a memory; and determine energy consumption data associated with a structure at a point in time; and', 'determine whether the structure is occupied at the point in time based, at least in part, on the determined energy consumption data., 'a processor coupled to the memory, wherein the processor is configured to execute executable instructions stored in the memory to2. The computing device of claim 1 , wherein the processor is configured to execute executable instructions stored in the memory to:determine whether a first portion of the determined energy consumption data meets or exceeds a threshold for the first portion of the determined energy consumption data stored in the memory; anddetermine whether a second portion of the determined energy consumption data meets or exceeds a threshold for the second portion of the determined energy consumption data stored in the memory if the first portion of the determined energy consumption data meets or exceeds the first threshold, wherein the structure is occupied at the point in time if the second portion of the determined energy consumption data meets or exceeds the second threshold.3. The computing device of claim 2 , wherein the processor is configured to execute executable instructions stored in the memory to send a communication to a mobile device if the first portion of the determined energy consumption data meets or exceeds the threshold for the first portion of the determined energy consumption data stored ...

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14-03-2013 дата публикации

ENERGY CONSUMPTION DISAGGREGATION SYSTEM

Номер: US20130066479A1
Принадлежит: HONEYWELL INTERNATIONAL INC.

A system for disaggregating a gross energy measurement into individual component energy consumption. A collection of components may be situated in a facility. A sensor may obtain electrical signals from one or more power input lines which convey power to the facility for the components. The signals may indicate the total energy consumption by the collection of components. Approaches and/or mechanisms may be used to disaggregate the indication of total energy consumption into indications of individual energy consumption by the components without the need for separately determining the individual energy consumption with additional measurements or instrumentation. Also, approaches and/or mechanisms may be used for integrating a known load activity with whole facility energy consumption for enhancing the component disaggregation. Indications of individual energy consumption permit a reasonable evaluation of components from efficiency, conservation and/or other perspectives. 1. A disaggregation system comprising:a power sensor unit;a data acquisition mechanism connected to the power sensor unit;a microcontroller unit connected to the data acquisition mechanism; andwherein:the data acquisition mechanism provides energy information to the microcontroller unit; andthe microcontroller unit provides disaggregated energy information.2. The system of claim 1 , wherein: a voltage sensor connected to the filter unit; and', 'a current sensor connected to the filter unit;, 'the power sensor unit comprisesthe voltage and current sensors are connected to one or more power lines which provide power to a facility having components that consume energy; andthe voltage and current sensors provide voltage and current signals representing voltage and current on the one or more power lines.3. The system of claim 2 , wherein:the energy information to the microcontroller indicates a gross amount of energy consumed by the facility;voltage and current signals from the one or more power lines to ...

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13-06-2013 дата публикации

SYSTEM AND METHOD FOR OPTIMAL LOAD AND SOURCE SCHEDULING IN CONTEXT AWARE HOMES

Номер: US20130151012A1
Принадлежит: HONEYWELL INTERNATIONAL INC.

A controller for controlling energy consumption in a home includes a constraints engine to define variables for multiple appliances in the home corresponding to various home modes and persona of an occupant of the home. A modeling engine models multiple paths of energy utilization of the multiple appliances to place the home into a desired state from a current context. An optimal scheduler receives the multiple paths of energy utilization and generates a schedule as a function of the multiple paths and a selected persona to place the home in a desired state. 1. A controller for controlling energy consumption in a home , the controller comprising:a constraints engine to define variables for multiple appliances in the home corresponding to various home modes, convenience of service, and persona of an occupant of the home;a modeling engine to model multiple paths of energy utilization of the multiple appliances to place the home into a desired state from a current context; andan optimal scheduler to receive the multiple paths of energy utilization and generate a schedule as a function of the multiple paths and a selected persona to place the home in a desired state.2. The controller of wherein the constraints engine comprises variables for each appliance and subsystem under each mode.3. The controller of wherein the modes include a normal mode claim 2 , a party mode claim 2 , and a vacation mode.4. The controller of wherein the persona is indicative of a user high level preferences and goals.5. The controller of wherein the user preference and goals include at least one of optimal energy conservation claim 4 , dollar saving and comfort conditions.6. The controller of wherein the persona is represented in terms of convenience of service.7. The controller of and further comprising an occupancy module to determine whether or not the home is currently occupied.8. The controller of wherein the occupancy module infers occupancy from an overall energy utilization signature.9. ...

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15-02-2018 дата публикации

SYSTEMS AND METHODS FOR MANAGING A PROGRAMMABLE THERMOSTAT

Номер: US20180048483A1
Принадлежит:

Systems and methods for managing a programmable thermostat are described herein. One or more system embodiments include a programmable thermostat having a first management profile; a data acquisition subsystem; and a data analysis subsystem. The data acquisition subsystem is configured to receive thermostat data from the programmable thermostat, and the data analysis subsystem is configured to receive the thermostat data from the data acquisition subsystem, and determine a second management profile for the programmable thermostat based, at least in part, on the thermostat data. 1. A method for controlling an environmental condition within at least part of a building via a building control system , the method comprising:controlling the environmental condition within at least part of the building based at least in part on a first management profile;receiving building control information over time;automatically determining a second management profile that is different from the first management profile based at least in part on the received building control information; andcontrolling the environmental condition within at least part of the building based at least in part on the second management profile.2. The method of claim 1 , wherein the first management profile comprises a first setpoint temperature schedule and the second management profile comprises a second setpoint temperature schedule claim 1 , wherein the second setpoint temperature schedule is different from the first setpoint temperature schedule.3. The method of claim 2 , wherein:the first setpoint temperature schedule includes a plurality of setpoint temperatures each assigned to a different time period, wherein each time period comprises a corresponding start time;the second setpoint temperature schedule includes a plurality of setpoint temperatures each assigned to a different time period, wherein each time period comprises a corresponding start time; andwherein at least one of the plurality of setpoint ...

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12-04-2018 дата публикации

SYSTEM AND METHOD FOR OPTIMAL LOAD AND SOURCE SCHEDULING IN CONTEXT AWARE HOMES

Номер: US20180101185A1
Принадлежит:

A controller for controlling energy consumption in a home includes a constraints engine to define variables for multiple appliances in the home corresponding to various home modes and persona of an occupant of the home. A modeling engine models multiple paths of energy utilization of the multiple appliances to place the home into a desired state from a current context. An optimal scheduler receives the multiple paths of energy utilization and generates a schedule as a function of the multiple paths and a selected persona to place the home in a desired state. 1. (canceled)2. A controller for controlling energy consumption in a home , the controller comprising:a constraints engine to define sets of constraints for multiple appliances in the home corresponding to various home modes, convenience of service, and persona of an occupant of the home;a modeling engine to model multiple paths of energy utilization of the multiple appliances to place the home into a desired state from a current context;an optimal scheduler to receive the multiple paths of energy utilization, to generate a schedule as a function of the multiple paths and a selected persona with corresponding sets of constraints to place the home in a desired state, and to suggest a plurality of load schedules and set points for optimal energy conservation; andan occupancy module to determine whether or not the home is currently occupied;wherein the occupancy module infers occupancy from an overall energy utilization signature, wherein the optimal scheduler automatically resets at least one thermostat mode of the home and automatically adjusts at least one thermostat setting of the home, in response to the occupancy module determining that the home is not occupied; andwherein the controller correlates and maps fuzzy data to parameters that are used for scheduling and controlling operation of home loads.3. The controller of wherein the constraints engine comprises variables for each appliance and subsystem under ...

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16-06-2016 дата публикации

HEATING, VENTILATION, AND AIR CONDITIONING SYSTEM CONTROLLER

Номер: US20160169545A1
Принадлежит:

Heating, ventilation, and air conditioning (HVAC) system controllers are described herein. One HVAC controller includes a user interface configured to receive an indication of whether there is a positive or negative relationship between each of a number of controlled variables of an HVAC system and each of a number of manipulated variables of the HVAC system, a memory, and a processor configured to execute executable instructions stored in the memory to determine operating parameters for each of the number of manipulated variables, wherein the determined operating parameters are determined based, at least in part, on whether there is a positive or negative relationship between each respective controlled variable and each respective manipulated variable, and the determined operating parameters are not based on system dynamics and disturbances associated with the HVAC system. The determined operating parameters may be optimal with respect to the current condition of the HVAC system. 1. A controller of a heating , ventilation , and air conditioning (HVAC) system , comprising:a user interface configured to receive an indication of whether there is a positive or negative relationship between each of a number of controlled variables of an HVAC system and each of a number of manipulated variables of the HVAC system;a memory; and the determined operating parameters are determined based, at least in part, on whether there is a positive or negative relationship between each respective controlled variable and each respective manipulated variable; and', 'the determined operating parameters are not based on system dynamics and disturbances associated with the HVAC system., 'a processor configured to execute executable instructions stored in the memory to determine operating parameters for each of the number of manipulated variables, wherein2. The controller of claim 1 , wherein the processor is configured to execute the instructions to determine the operating parameters for each ...

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16-06-2016 дата публикации

HEATING, VENTILATION, AND AIR CONDITIONING SYSTEM CONTROLLER

Номер: US20160169546A1
Принадлежит:

Heating, ventilation, and air conditioning (HVAC) controllers are described herein. One method includes receiving an approximate relationship between each of a number of controlled and manipulated variables of an HVAC system, designating one of the number of controlled variables as a primary controlled variable, determining operating parameters for each of the number of manipulated variables that maintain the primary controlled variable based, at least in part, on the approximate relationship between the primary controlled variable and each respective manipulated variable, and determining operating parameters for each of the number of manipulated variables that maintain each of the other controlled variables based, at least in part, on the approximate relationship between each respective other controlled variable and each respective manipulated variable and the determined operating parameters for each of the number of manipulated variables that maintain the primary controlled variable. 1. A controller of a heating , ventilation , and air conditioning (HVAC) system , comprising: an approximate relationship between each of a number of controlled variables of an HVAC system and each of a number of manipulated variables of the HVAC system; and', 'a designation of one of the number of controlled variables as a primary controlled variable and the other controlled variables as secondary controlled variables;, 'a user interface configured to receivea memory; and determine operating parameters for each of the number of manipulated variables that maintain the primary controlled variable at a particular set point or within a particular range based, at least in part, on the approximate relationship between the primary controlled variable and each respective manipulated variable; and', the approximate relationship between each respective secondary controlled variable and each respective manipulated variable; and', 'the determined operating parameters for each of the number of ...

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26-07-2018 дата публикации

Heating, ventilation, and air conditioning system controller

Номер: US20180209676A1
Принадлежит: Honeywell International Inc

Heating, ventilation, and air conditioning (HVAC) controllers are described herein. One method includes receiving an approximate relationship between each of a number of controlled and manipulated variables of an HVAC system, designating one of the number of controlled variables as a primary controlled variable, determining operating parameters for each of the number of manipulated variables that maintain the primary controlled variable based, at least in part, on the approximate relationship between the primary controlled variable and each respective manipulated variable, and determining operating parameters for each of the number of manipulated variables that maintain each of the other controlled variables based, at least in part, on the approximate relationship between each respective other controlled variable and each respective manipulated variable and the determined operating parameters for each of the number of manipulated variables that maintain the primary controlled variable.

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15-10-2020 дата публикации

SYSTEMS AND METHODS FOR TRAINING DEVICES TO RECOGNIZE SOUND PATTERNS

Номер: US20200327885A1
Принадлежит:

Systems and methods for training a control panel to recognize user defined and preprogrammed sound patterns are provided. Such systems and methods can include the control panel operating in a learning mode, receiving initial ambient audio from a region, and saving the initial ambient audio as an audio pattern in a memory device of the control panel. Such systems and methods can also include the control panel operating in an active mode, receiving subsequent ambient audio from the region, using an audio classification model to make an initial determination as to whether the subsequent ambient audio matches or is otherwise consistent with the audio pattern, determining whether the initial determination is correct, and when the control panel determines that the initial determination is incorrect, modifying or updating the audio classification model for improving the accuracy in detecting future consistency with the audio pattern. 1. A method comprising:a control panel operating in a learning mode receiving initial ambient audio from a region;the control panel saving the initial ambient audio as an audio pattern in a memory device of the control panel;the control panel operating in an active mode receiving subsequent ambient audio from the region;the control panel using audio classification model to make an initial determination as to whether the subsequent ambient audio matches or is otherwise consistent with the audio pattern;the control panel determining whether the initial determination is correct; andwhen the control panel determines that the initial determination is incorrect, the control panel modifying or updating the audio classification model for accuracy in detecting future consistency with the audio pattern.2. The method of further comprising:when the control panel initially determines that the subsequent ambient audio matches or is otherwise consistent with the audio pattern, the control panel transmitting a notification message to a notification device; ...

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17-04-2018 дата публикации

Heating, ventilation, and air conditioning system controller

Номер: US09945572B2
Принадлежит: Honeywell International Inc

Heating, ventilation, and air conditioning (HVAC) controllers are described herein. One method includes receiving an approximate relationship between each of a number of controlled and manipulated variables of an HVAC system, designating one of the number of controlled variables as a primary controlled variable, determining operating parameters for each of the number of manipulated variables that maintain the primary controlled variable based, at least in part, on the approximate relationship between the primary controlled variable and each respective manipulated variable, and determining operating parameters for each of the number of manipulated variables that maintain each of the other controlled variables based, at least in part, on the approximate relationship between each respective other controlled variable and each respective manipulated variable and the determined operating parameters for each of the number of manipulated variables that maintain the primary controlled variable.

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