Patent application number | Description | Published |
20090299527 | Distributed intelligence in lighting control - Exemplary systems, methods, and apparatuses for distributed intelligence in facility lighting control are provided. A facility lighting system may be organized into multiple control areas, each of which may include one or more component devices. Each lighting control area may be associated with a control apparatus, which controls the operation of the lighting devices of the associated control area based on various types of signal information. Signal information may include information concerning local conditions or environments, as well as information from a centralized control server. Some embodiments further include monitoring the operation and predicting fault states of the lighting control area. | 12-03-2009 |
20100114340 | AUTOMATIC PROVISIONING OF WIRELESS CONTROL SYSTEMS - Exemplary systems and methods for provisioning wireless control of facilities systems are provided. A message is broadcast to a network that includes one or more control devices, which may be associated with one or more control points (e.g., lights in lighting systems). The control device responds with information concerning the control device and/or any associated control points. A scene including at least one specification for operation the control point is assigned to the control device. A corresponding scene command may be generated and sent to the control device. Provisioning may further include generating a visual display of the various control devices and associated control points (e.g., lights) in the facilities system. | 05-06-2010 |
20100134051 | Systems and methods for remotely controlling an electrical load - Systems and methods for remotely controlling an electrical load are provided. A switch is associated with controlling one or more electricity-consuming devices. After electrically isolating the switch from the electricity-consuming device, an adapter is communicatively coupled to and used to detect the state of the switch. The adapter generates and wirelessly transmits a signal indicative of the detected state of the switch to a controller that controls operation of the device based on at least the state of the switch as detected by the sensor and indicated by the wirelessly transmitted signal. | 06-03-2010 |
20100185339 | Location-Based Provisioning of Wireless Control Systems - Exemplary systems and methods for provisioning wireless control of facilities systems are provided. A message is broadcast to a network that includes one or more control devices, which may be associated with one or more control points (e.g., lights in lighting systems). The control device responds with information concerning the control device and/or any associated control points. A scene including at least one specification for operation the control point is assigned to the control device. A corresponding scene command may be generated and sent to the control device. Provisioning may further include generating a visual display of the various control devices and associated control points (e.g., lights) in the facilities system. | 07-22-2010 |
20110043052 | Systems and Methods for Remotely Controlling an Electrical Load - Systems and methods for remotely controlling an electrical load are provided. A switch is associated with controlling one or more electricity-consuming devices. After electrically isolating the switch from the electricity-consuming device, an adapter is communicatively coupled to and used to detect the state of the switch. The adapter generates and wirelessly transmits a signal indicative of the detected state of the switch to a controller that controls operation of the device based on at least the state of the switch as detected by the sensor and indicated by the wirelessly transmitted signal. | 02-24-2011 |
20110109424 | WIRELESS SENSOR - Systems and methods for wirelessly detecting area changes are provided. Predetermined thresholds may be stored in memory. Each predetermined threshold is associated with a time of day, calendar day, and/or activity. The sensor may detect a change in the in the targeted area. The detected change is evaluated to determine an applicable threshold. Then it may be determined whether the detected change meets a predetermined threshold. If so, information regarding the change is wirelessly transmitted to an associated controller that controls light in the targeted area. The operation of the light may be controlled based on the wirelessly transmitted information. | 05-12-2011 |
20110112702 | Sensor Interface for Wireless Control - Systems and methods for enabling communication with a wired sensor are provided. A wired sensor may be adapted for wireless communication using a sensor interface. A sensor interface is communicatively coupled with a wired sensor that provides information about a detected environmental condition. The sensor interface wirelessly transmits information received from the wired sensor to a controller that may control an electrical load based on the wirelessly transmitted information. | 05-12-2011 |
20120330476 | Sensor Interface for Wireless Control - Systems and methods for enabling communication with a wired sensor are provided. A wired sensor may be adapted for wireless communication using a sensor interface. A sensor interface is communicatively coupled with a wired sensor that provides information about a detected environmental condition. The sensor interface wirelessly transmits information received from the wired sensor to a controller that may control an electrical load based on the wirelessly transmitted information. | 12-27-2012 |
20130103201 | Intelligence in Distributed Lighting Control Devices - Exemplary systems, methods, and apparatuses for distributed intelligence in facility lighting control are provided. A facility lighting system may be organized into multiple control areas, each of which may include one or more component devices. Each lighting control area may be associated with a control apparatus, which controls the operation of the lighting devices of the associated control area based on various types of signal information. Signal information may include information concerning local conditions or environments, as well as information from a centralized control server. Some embodiments further include monitoring the operation and predicting fault states of the lighting control area. | 04-25-2013 |
20140354995 | Wireless Sensor - Systems and methods for wirelessly detecting area changes are provided. Predetermined thresholds may be stored in memory. Each predetermined threshold is associated with a time of day, calendar day, and/or activity. The sensor may detect a change in the in the targeted area. The detected change is evaluated to determine an applicable threshold. Then it may be determined whether the detected change meets a predetermined threshold. If so, information regarding the change is wirelessly transmitted to an associated controller that controls light in the targeted area. The operation of the light may be controlled based on the wirelessly transmitted information. | 12-04-2014 |
Patent application number | Description | Published |
20130066672 | Aggregation of Life Cycle Impact Assessment Data and Generation of Life Cycle Impact Assessments and Scoring - Aggregation of life cycle impact assessment data and generation of life cycle impact assessment and scoring for goods and/or services or for components of goods and/or services are provided. Life cycle inventory data for components of goods and/or services are validated and audited to determine their available use in the generation of life cycle impact assessments for the goods and/or services. Life cycle impact assessments (LCIA) and LCIA scores are generated for each component or phase of production, use or disposal of a given good and/or service. LCIAs and LCIA scores for each component or phase are aggregated together and composite LCIAs and LCIA scores are generated for the good and/or service. The generated LCIAs and LCIA scores may be exposed to consumers, and the LCIAs and LCIA scores may be updated periodically as required to account for changes in LCI data for the scored good and/or service. | 03-14-2013 |
20130066752 | Automating Life Cycle Inventory Data Collection - Collection of life cycle inventory (“LCI”) data for all phases of the life of goods and/or services is provided. Suppliers of goods and/or services may log into a LCI and assessment data hub via one or more access points for entering LCI data on all phases of development, production use and/or disposal of their goods and/or services. Access to the data hub, as a central data collection point, requires authentication of accessing suppliers via a security framework associated with the data hub. LCI data may be provided via a structured data template, or raw business or business transaction data may be entered in association with a unit process model requested by the supplier. Entered LCI data may be validated as being appropriate for the associated data type and the entered data may be audited to ensure accuracy of the data | 03-14-2013 |
20130066867 | MANAGEMENT OF METADATA FOR LIFE CYCLE ASSESSMENT DATA - Management of metadata applied to life cycle inventory (LCI) and life cycle assessment (LCA) data is provided. Life cycle inventory data may be provided through a secure framework to a data hub where it may be validated and audited and where the received life cycle inventory data may ultimately be used to generate a life cycle assessment score for a given product. Life cycle inventory data may be provided via a structured data template provided by a supplier or obtained by a supplier via a requested unit business process model. Metadata may be applied to each LCI data item to allow the data items to be stored, sorted, search, retrieved and used for validating and auditing the data and for comparing the data to other data items of similar data types for eventual use in the generation of the aforementioned life cycle assessment score for a given product. | 03-14-2013 |
20130066897 | User Interfaces for Life Cycle Inventory and Assessment Data - User interfaces are provided for submitting and obtaining life cycle inventory and assessment data. Suppliers of goods and/or services may provide life cycle inventory data via a user interface component through a secure framework to a life cycle inventory and assessment data hub for validation and auditing. Access to the life cycle inventory and assessment data hub may be through a web services platform for allowing the suppliers secured access to the data and functionality of the data hub. Suppliers and end users may access the data hub via the web services platform using one or more LCI/LCIA user interfaces for obtaining validated and audited life cycle inventory data and for obtaining generated and/or aggregated life cycle assessment scores for one or more goods and/or services. | 03-14-2013 |