Patent application number | Description | Published |
20100088058 | METHODS AND SYSTEMS FOR OFF-LINE CONTROL FOR SIMULATION OF COUPLED HYBRID DYNAMIC SYSTEMS - Systems and methods are provided for controlling the simulation of a coupled hybrid dynamic system, comprising a physical test rig configured to drive the physical structure component of the system and to generate a test rig response as a result of applying a test rig drive signal that is input to the test rig. A processor is configured with a virtual model of the system. The processor receives the test rig response and generates a model response of the system based on the received test rig response and a virtual drive input. In a system response modeling step, the system is driven with a random input. The processor compares the test rig response with the model response, the difference being used to form a system dynamic response model for generating the test drive signal. In a test drive development step, an inverse of the system dynamic response model is used to iteratively reduce the difference between the model response and the test rig response below a defined threshold. | 04-08-2010 |
20130030751 | Methods and systems for off-line control for simulation of coupled hybrid dynamic systems - Systems and methods are provided for controlling the simulation of a coupled hybrid dynamic system. A physical test rig configured to drive the physical structure component of the system and to generate a test rig response as a result of applying a test rig drive signal. A processor is configured with a virtual model of the system. The processor receives the test rig response and generates a model response of the system based on the received test rig response and a virtual drive input. The system is driven with a random input. The processor compares the test rig response with the model response, the difference being used to form a system dynamic response model for generating the test drive signal. An inverse of the system dynamic response model is used to iteratively reduce the difference between the model response and the test rig response below a defined threshold. | 01-31-2013 |
20130104670 | TEST SYSTEM FOR MEASURING AND EVALUATING DYNAMIC BODY FORCES | 05-02-2013 |
20130304441 | METHOD AND SYSTEMS FOR OFF-LINE CONTROL FOR SIMULATION OF COUPLED HYBRID DYNAMIC SYSTEMS - Systems and methods are provided for controlling the simulation of a coupled hybrid dynamic system. A physical test rig configured to drive the physical structure component of the system and to generate a test rig response as a result of applying a test rig drive signal. A processor is configured with a virtual model of a complementary system to the physical structure component. The processor receives the test rig response and generates a response of the complementary system based on a received test rig response. The system can be driven with a random input. The processor compares the test rig response with the response of the complementary system, the difference being used to form a system dynamic response model. | 11-14-2013 |
20140107962 | Method and systems for off-line control for simulation of coupled hybrid dynamic systems - Systems and methods are provided for controlling the simulation of a coupled hybrid dynamic system. A physical test rig configured to drive the physical structure component of the system and to generate a test rig response as a result of applying a test rig drive signal. A processor is configured with a virtual model of a complementary system to the physical structure component. The processor receives the test rig response and generates a response of the complementary system based on a received test rig response. The system can be driven with a random input. The processor compares the test rig response with the response of the complementary system, the difference being used to form a system dynamic response model. | 04-17-2014 |
20150081045 | METHOD OF OFF-LINE HYBRID SYSTEM ASSESSMENT FOR TEST MONITORING AND MODIFICATION - A method and an arrangement of controlling simulation of a coupled hybrid dynamic system comprising a component under test and a virtual model includes driving the physical component under test of the system on a test rig over a period of time to conduct a test by applying an initial test drive signal input to the test rig to generate a test rig response. At least a portion of the test rig response is inputted into the virtual model of the system to obtain a model response of the system. A condition of the physical component under test is assessed during at least a portion of the period of time to conduct the test based on comparing another portion of the test rig response with the model response where an output relating to the assessment is recorded or rendered. | 03-19-2015 |
20150134291 | METHODS AND SYSTEMS FOR TESTING COUPLED HYBRID DYNAMIC SYSTEMS - A test system and method for testing a coupled hybrid dynamic system in simulated motion along a path ( | 05-14-2015 |
Patent application number | Description | Published |
20130112076 | RECOVERY OF Xe AND OTHER HIGH VALUE COMPOUNDS - A system and method for recovering high value gas from a process stream, material or environment containing same, e.g., xenon by contacting gas from the process stream, material or environment with a carbon adsorbent effective to sorptively capture same, free of or with reduced concentration of fluid species present with the high value gas in the high value gas-containing gas in the process stream, material or environment. Other aspects of the disclosure include a radon detection method and product. | 05-09-2013 |
20150027202 | RECOVERY OF Xe AND OTHER HIGH VALUE COMPOUNDS - A system and method for recovering high value gas from a process stream, material or environment containing same, e.g., xenon by contacting gas from the process stream, material or environment with a carbon adsorbent effective to sorptively capture same, free of or with reduced concentration of fluid species present with the high value gas in the high value gas-containing gas in the process stream, material or environment. Other aspects of the disclosure include a radon detection method and product. | 01-29-2015 |
Patent application number | Description | Published |
20120124588 | Generating Hardware Accelerators and Processor Offloads - System and method for generating hardware accelerators and processor offloads. System for hardware acceleration. System and method for implementing an asynchronous offload. Method of automatically creating a hardware accelerator. Computerized method for automatically creating a test harness for a hardware accelerator from a software program. System and method for interconnecting hardware accelerators and processors. System and method for interconnecting a processor and a hardware accelerator. Computer implemented method of generating a hardware circuit logic block design for a hardware accelerator automatically from software. Computer program and computer program product stored on tangible media implementing the methods and procedures of the invention. | 05-17-2012 |
20140181343 | Structured Block Transfer Module, System Architecture, and Method for Transferring - Structured block transfer module, system architecture, and method for transferring content or data. Circuit allowing content in one memory to be shifted, moved, or copied to another memory with no direction from a host, the circuit comprising: a connection manager, at least one copy engine, and a connection between the connection manager and the copy engine. Method for transferring the contents of one of a number of blocks of source memory to one of a number of possible destination memories comprising: selecting source memory; selecting available destination memory; marking the selected destination as no longer available; copying contents of selected source memory into selected destination memory; and marking selected source as available. | 06-26-2014 |
20140181447 | Structured Block Transfer Module, System Architecture, and Method for Transferring - Structured block transfer module, system architecture, and method for transferring content or data. Circuit allowing content in one memory to be shifted, moved, or copied to another memory with no direction from a host, the circuit comprising: a connection manager, at least one copy engine, and a connection between the connection manager and the copy engine. Method for transferring the contents of one of a number of blocks of source memory to one of a number of possible destination memories comprising: selecting source memory; selecting available destination memory; marking the selected destination as no longer available; copying contents of selected source memory into selected destination memory; and marking selected source as available. | 06-26-2014 |
20150178136 | Generating Hardware Accelerators and Processor Offloads - System and method for generating hardware accelerators and processor offloads. System for hardware acceleration. System and method for implementing an asynchronous offload. Method of automatically creating a hardware accelerator. Computerized method for automatically creating a test harness for a hardware accelerator from a software program. System and method for interconnecting hardware accelerators and processors. System and method for interconnecting a processor and a hardware accelerator. Computer implemented method of generating a hardware circuit logic block design for a hardware accelerator automatically from software. Computer program and computer program product stored on tangible media implementing the methods and procedures of the invention. | 06-25-2015 |
Patent application number | Description | Published |
20120125543 | Motorized Venetian Blind System - A motorized venetian blind system for covering a window of a space comprising a blind drive unit having two motors to provide for independent control of a position of a bottom rail and a tilt angle of a plurality of slats of the blind system. The blind drive unit is operable to adjust the position of the bottom rail to a preset position, and to adjust the tilt angle of the slats to a preset angle in response to receiving a single digital message (e.g., a preset command). The blind drive unit is operable to automatically adjust the position of the bottom rail and the tilt angle of the slats to limit a direct sunlight penetration distance in the space to a maximum direct sunlight penetration distance, and to maximum a reflected sunlight penetration distance on a ceiling of the space, while minimizing occupant distractions. | 05-24-2012 |
20130049664 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event. | 02-28-2013 |
20130306246 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event of the timeclock schedule. | 11-21-2013 |
20140254477 | METHOD FOR ADDING A DEVICE TO A WIRELESS NETWORK - Load control devices may form an energy control network for the purpose of controlling one or more electrical and/or mechanical loads related to energy control in residential and/or commercial environments. The various load control devices of the energy control network may communicate with one another via a wireless communication network. Access information for communicating with/on a wireless communication network often takes the form of character-based information, such as a service set identifier (SSID), a type of network security, and/or a security key. The load control devices may have user interfaces that may not be well suited via which to enter the access information for a wireless communication network. Techniques and devices are described to provide network access information wirelessly in the form of data packets of modulated lengths to load control devices that may decode the access information from the modulated lengths to join the wireless communication network. | 09-11-2014 |
20140265568 | COMISSIONING LOAD CONTROL SYSTEMS - A load control system may include load control devices for controlling power provided to an electrical load. The load control devices may include a control-source device and a control-target device. The control-target device may control the power provided to the electrical load based on digital messages received from the control-source device. A user device may discover load control devices when the load control devices are within an established range associated with the user device. The user device and the load control devices may communicate via a wireless communications module. The established range may be adjusted based on the configurable transmit power of the user device or the wireless communications module associated with the user device. A discovered control-target device may be associated with a control-source device to enable the control-target device to control the power provided to the electrical load based on digital messages received from the control-source device. | 09-18-2014 |
20140277805 | LOAD CONTROL DEVICE USER INTERFACE AND DATABASE MANAGEMENT USING NEAR FIELD COMMUNICATION (NFC) - An energy control network may include a number of load control devices, such as dimmer switches, multi-button selector switch, occupancy sensors, and remote controllers, among others. These load control devices may be configured for wireless communication. Other wireless devices, such as laptops, tablets, and “smart” cellular phones may be configured to communicate with the load control devices of the energy control network. The load control devices and the other wireless communication devices may also be configured for Near Field Communication (NFC). NFC may be used to provide a load control device with its initial default configuration and/or an application specific configuration. Also, NFC may be used to transfer a configuration from one load control device that may have become faulty, to a replacement load control device. And NFC may be used to provide and trigger commands that may cause a load control load device to operate in a predetermined manner. | 09-18-2014 |
20150179058 | WIRELESS COMMUNICATION DIAGNOSTICS - A load control system may include devices for performing communications for controlling an amount of power provided to an electrical load. The devices may include load control devices that may communicate by transmitting digital messages. A user device having an adjustable wireless communication range may be used for discovering devices, configuring devices, and/or diagnosing devices in the load control system. The user device may detect whether devices are within an established wireless communication range of one another for performing communications. The user device may detect digital messages transmitted from a device and/or digital messages received at a device to determine whether the digital messages are correctly communicated in the load control system. The user device may provide an indication to a user indicating whether a digital message is correctly transmitted or received by a device in the load control system. | 06-25-2015 |
20150189724 | CONTROLLING LIGHT INTENSITY AT A LOCATION - A mobile device that is configured for wireless communication may be configured to operate as a remote control device in a lighting control system, controlling one or more lighting control devices of the lighting control system. The remote control device may control the light intensity in a space, for instance at a location of the remote control device, in response to an ambient light intensity measured at the remote control device. The remote control device may define a user interface for receiving an input that indicates a desired light intensity at the location. The remote control device may measure the ambient light intensity at the location via a light detector, compare the measured ambient light intensity to the desired light intensity, and cause the one or more lighting control devices to adjust the ambient light intensity at the remote control device until it agrees with the desired light intensity. | 07-02-2015 |
Patent application number | Description | Published |
20100071856 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event of the timeclock schedule. | 03-25-2010 |
20110029136 | Load Control System Having An Energy Savings Mode - A load control system for a building having a heating and cooling system and a window located in a space of the building uses a daylighting procedure to adjust the amount of power delivered to the lighting load in response to the amount of daylight entering the window, and controls amount of daylight entering the window in order to attempt to reduce the power consumption of the heating and cooling system if the daylighting procedure is not causing the heating and cooling system to save energy. If the lighting load is consuming more energy when the fabric of the motorized window treatment is at a position above the fully-closed position than the lighting load would consume if the fabric was at the fully-closed position, the motorized window treatment moves the fabric to the fully-closed position. | 02-03-2011 |
20110029139 | Load control system having an energy savings mode - A load control system for a building having a heating and cooling system and a window located in a space of the building controls amount of daylight entering the window in order to attempt to reduce the power consumption of the heating and cooling system, and adjusts amount of daylight entering the window if the heating and cooling system is not saving energy. A motorized window treatment of the load control system is operable to move a fabric covering the window in a first direction, and a temperature control device is operable to subsequently determine if the heating and cooling system is consuming more energy than when the fabric was in the initial position. The motorized window treatment then moves the fabric in a second direction opposite the first direction if the heating and cooling system is consuming more energy than when the fabric was in the initial position. | 02-03-2011 |
20110031806 | Load Control System Having An Energy Savings Mode - A load control system for a building having a lighting load, a window, and a heating and cooling system comprises a lighting control device for controlling the amount of power delivered to the lighting load, a daylight control device, such as a motorized window treatment, for adjusting the amount of natural light to be admitted through a window, and a temperature control device for controlling a setpoint temperature of the heating and cooling system to thus control a present temperature in the building. The load control system may also comprise a controllable electrical receptacle for turning on and off a plug-in electrical load connected thereto. The lighting control device, the daylight control device, the temperature control device, and the controllable receptacle are controlled so as to decrease a total power consumption of the load control system in response to a received demand response command. | 02-10-2011 |
20110035061 | Load Control System Having An Energy Savings Mode - A load control system for a building having a heating and cooling system and a window located in a space of the building is operable to control a motorized window treatment in response to a demand response command in order to attempt to reduce the power consumption of the heating and cooling system. When the window may be receiving direct sunlight, the motorized window treatment closes a fabric covering the window when the heating and cooling system is cooling the building, and opens the fabric when the heating and cooling system is heating the building. In addition, when the space is unoccupied and the heating and cooling system is heating the building, the motorized window treatment may open the fabric if the window may be receiving direct sunlight, and may close the fabric if the window may not be receiving direct sunlight. | 02-10-2011 |
20120091804 | Load Control System Having an Energy Savings Mode - A load control system for a building having a lighting load, a window, and a heating and cooling system comprises a lighting control device for controlling the amount of power delivered to the lighting load, a daylight control device (such as a motorized window treatment) for adjusting the amount of natural light to be admitted through a window, and a controller for adjusting a setpoint temperature of the heating and cooling system to thus control a present temperature in the building. In response to receiving a demand response command, the controller controls the lighting control device, the daylight control device, and the heating and cooling system so as to decrease a total power consumption of the load control system. The load control system may comprise a controllable switching device for disconnecting power to or disconnecting the control lines to one or more components of the heating and cooling system. | 04-19-2012 |
20120095601 | Dynamic Keypad for Controlling Energy-Savings Modes of a Load Control System - A load control system for a building having a lighting load, a window, and a heating and cooling system comprises a lighting control device for controlling the amount of power delivered to the lighting load, a motorized window treatment comprising a window treatment fabric for covering the window, a temperature control device for controlling a setpoint temperature of the heating and cooling system to thus control a present temperature in the building, and a dynamic keypad comprising a visual display and operable to receive a user input. The dynamic keypad allows a user to select, adjust, and monitor a plurality of energy-savings modes of the load control system. For example, the dynamic keypad allows the user to enable and adjust a setback temperature of the temperature control device on-the-fly. | 04-19-2012 |
20130026947 | Method Of Programming A Load Control Device Using A Smart Phone - A load control device is able to receive radio-frequency (RF) signals from a Wi-Fi-enabled device, such as a smart phone, via a wireless local area network. The load control device comprises a controllably conductive device adapted to be coupled in series between an AC power source and an electrical load, a controller for rendering the controllably conductive device conductive and non-conductive, and a Wi-Fi module operable to receive the RF signals from the wireless network. The controller controls the controllably conductive device to adjust the power delivered to the load in response to the wireless signals received from the wireless network. The load control device may further comprise an optical module operable to receive an optical signal, such that the controller may obtain an IP address from the received optical signal and control the power delivered to the load in response to a wireless signal that includes the IP address. | 01-31-2013 |
20130113284 | Load Control System Providing Manual Override of An Energy Savings Mode - A load control system for a building having a lighting load, a window, and a heating and cooling system comprises a lighting control device, a daylight control device, and a temperature control device operable to be controlled so as to decrease a total power consumption of the load control system in an energy-savings mode. The energy-savings mode can be manually overridden in response to actuation of the actuator of an input control device, such that the load control system enters a manual mode for manually adjusting the loads controlled by the lighting control device, the daylight control device, and the temperature control device. The load control system is operable to automatically return to the energy-savings mode at a time after the load control system entered the manual mode. | 05-09-2013 |
20130226351 | LOAD CONTROL SYSTEM HAVING AN ENERGY SAVINGS MODE - A load control system for a building having a heating and cooling system and a window located in a space of the building is operable to control a motorized window treatment in order to attempt to reduce the power consumption of the heating and cooling system. When the window may be receiving direct sunlight, the motorized window treatment closes a fabric covering the window when the heating and cooling system is cooling the space, and opens the fabric when the heating and cooling system is heating the space. In addition, when the space is unoccupied and the heating and cooling system is heating the space, the motorized window treatment may open the fabric if the window may be receiving direct sunlight, and may close the fabric if the window may not be receiving direct sunlight. | 08-29-2013 |