Patent application number | Description | Published |
20110046045 | Method of treating obesity and metabolic disorders related to excess adipose tissue by administration of sFRP-5 peptide - Disclosed is a method of reducing the amount of adipose tissue in a subject comprising administering to the subject an amount of an sFRP-5 peptide effective to reduce the amount of adipose tissue, or an amount of a molecule effective to stimulate expression of the sFRP-5 peptide in the subject. Also disclosed is a screen for molecules that can reduce the amount of adipose tissue in a subject. | 02-24-2011 |
20110288034 | Methods of identifying adipocyte specific genes, the genes identified, and their uses - Disclosed is a method of identifying genes that are over-expressed in adipose tissue as compared to pre-adipocyte tissue or other tissues comprising performing differential gene expression analysis between the white adipose tissue (WAT) or stromal vascular tissue (SVT) from any two different mice selected from the group consisting of wild-type, HMGI-C−/−, ob/ob, and HMGI-C−/− ob/ob genotype mice. Based on this method a number of nucleotide sequences are identified whose expression is adipocyte specific. The identified nucleotide sequences and their corresponding polypeptides are then used to prevent adipogenesis, to treat diabetes, and to screen for small-molecules that can modulate or prevent adipogenesis and to treat diabetes. | 11-24-2011 |
20130165369 | METHOD OF TREATING OBESITY AND METABOLIC DISORDERS RELATED TO EXCESS ADIPOSE TISSUE BY ADMINISTRATION OF sFRP-- PEPTIDE - Disclosed is a method of reducing the amount of adipose tissue in a subject comprising administering to the subject an amount of an sFRP-5 peptide effective to reduce the amount of adipose tissue, or an amount of a molecule effective to stimulate expression of the sFRP-5 peptide in the subject. Also disclosed is a screen for molecules that can reduce the amount of adipose tissue in a subject. | 06-27-2013 |
20160024162 | Promoting Apoptosis Of Differentiated Adipocytes And Increasing Endogenous Expression Of sFRP-5 Peptide By Adipocytes By Administration Of sFRP-5 Peptide - Disclosed is a method of reducing the amount of adipose tissue in a subject comprising administering to the subject an amount of an sFRP-5 peptide effective to reduce the amount of adipose tissue, or an amount of a molecule effective to stimulate expression of the sFRP-5 peptide in the subject. Also disclosed is a screen for molecules that can reduce the amount of adipose tissue in a subject. | 01-28-2016 |
Patent application number | Description | Published |
20110057581 | Floor Plan Deduction Using Lighting Control and Sensing - An apparatus and method of deducing building floor plan information are disclosed. One method includes changing an intensity of light generated from a plurality of lights within a building. A plurality of light sensors senses an intensity of light received from at least one of the plurality of lights. A distance between at least one light sensor and at least one of the plurality of lights is estimated based on the sensed intensity of light. | 03-10-2011 |
20110140612 | Lighting Control - An apparatus and method of controlling a light are disclosed. One method includes detecting a light adjusting trigger event, selecting a random delay time, and adjusting the light, wherein the light adjustment occurs the random delay time after detecting the light adjusting trigger event. | 06-16-2011 |
20120032599 | Intelligent Light Retrofit - An apparatus and method of retrofitting a light fixture are disclosed. One method includes interfacing a retrofit controller with a dimming ballast of the light fixture, connecting the retrofit controller to at least one sensor, and connecting the retrofit controller to a power supply and a network. Another embodiment includes a light fixture retrofit controller and a separate sensor unit. The combination of the retrofit controller and a separate sensor unit are operative to provide power and dimming control of a dimming ballast of an existing light fixture. The dimming control is base on at least one of a signal sensed by the separate sensor unit and control information received from a network. | 02-09-2012 |
20120062125 | Distributed Lighting Control of a Corridor or Open Areas - Methods and apparatuses of distributed lighting control are disclosed. One method includes a sensor sensing a change of light intensity per unit of time greater than a sense threshold. If a light associated with the sensor is within a corridor and the sensed change of light intensity per unit of time is greater than the sense threshold, then the light is activated at a preselected corridor light intensity. If the light associated with the sensor is not within a corridor and the sensed change of light per unit of time is greater than the sense threshold, then the light is activated at a preselected non-corridor light intensity. For an embodiment, the preselected corridor light intensity is greater than the preselected non-corridor light intensity. | 03-15-2012 |
20120112667 | Controlling Intensity of a Light Through Qualified Motion Sensing - Methods and apparatuses for controlling light intensity of a light through motion sensing are disclosed. One method includes sensing a first instance of motion. The light is activated only if consecutive instances of motion are sensed, wherein each instance is sensed within a gap of time of a previously sensed instance of motion, and the consecutive instances of motion being sensed span an entire window of time after sensing the first instance of motion. One apparatus includes a motion sensor for sensing a first instance of motion. The apparatus further includes a controller interfaced to the motion sensor and the light, the controller operative to activate the light only if consecutive instances of motion are sensed, wherein each instance is sensed within a gap of time of a previously sensed instance of motion, and the consecutive instances of motion being sensed span an entire window of time after sensing the first instance of motion. | 05-10-2012 |
20120229049 | Lighting Control With Automatic and Bypass Modes - Methods, systems and apparatuses for controlling a light through an automatic mode and a bypass mode are disclosed. One method includes receiving physical signaling. Detection of a predetermined sequence of the physical signaling is used to determine whether to control the light in the automatic mode or the bypass mode. The automatic mode provides network control of the light, and the bypass mode bypasses the network control of the light. One lighting system includes a light, a sensor for receiving and sensing the physical signaling, and a controller detecting a predetermined sequence of the physical signaling. Detection of a predetermined sequence of the physical signaling is used to determine whether to control the light in the automatic mode or the bypass mode. The automatic mode provides network control of the light, and the bypass mode bypasses the network control of the light. | 09-13-2012 |
Patent application number | Description | Published |
20120130544 | Logical Groupings of Intelligent Building Fixtures - Methods, apparatuses and systems of building control, are disclosed. One system includes a plurality of building fixtures and at least one sensor interfaced with at least one of the plurality of building fixtures. Further, each building fixture includes a communication port and a controller. For this embodiment, each controller is configured to independently control at least one of an environmental load or a security device, either receive or help designate the building fixture as belonging to a logical group of building fixtures, and share at least one of sensor or state information with other building fixtures within the logical group of building fixtures, through the communication port. | 05-24-2012 |
20120299485 | Distributed Lighting Control - Apparatuses, methods and systems for controlling a luminaire are disclosed. One embodiment includes a lighting control sub-system. The lighting control sub-system includes a luminaire, a controller coupled to the luminaire, and a sensor coupled to the controller. The sensor generates a sensed input. The lighting control sub-system further includes a communication interface, wherein the communication interface couples the controller to an external device. The controller is operative to control a light output of the luminaire based at least in part on the sensed input, and to communicate at least one of state or sensed information to the external device. | 11-29-2012 |
20120326608 | Intelligent and Emergency Light Control - Methods, apparatuses and systems of an intelligent light controller controlling a light, are disclosed. One method includes interpreting a switch from a normal power supply to an emergency power supply. Upon interpreting the switch from the normal power supply to the emergency power supply, the intelligent light controller controllably powers the light for a predetermined period of time. Further, the intelligent light controller executes an energy-savings behavior control of the light. | 12-27-2012 |
20130020949 | LIGHTING CONTROL - An apparatus and method of controlling a light are disclosed. One light apparatus includes a light and a controller. The controller is operative to detect a light adjusting trigger event, select a random delay time, and adjust the light, wherein the light adjustment occurs the random delay time after detecting the light adjusting trigger event. | 01-24-2013 |
20130069543 | Dual-Technology Occupancy Detection - Apparatuses, methods and systems for dual-technology occupancy detection are disclosed. One dual-technology occupancy detection apparatus includes a motion sensor sensing motion, an ambient light sensor sensing variation in ambient light, and a controller for detecting occupancy and controlling a building environmental parameter based on the sensed motion and the sensed variations in ambient light. One method of detecting occupancy for controlling lighting includes sensing motion with a motion sensor, sensing variations in ambient light with an ambient light sensor, and detecting occupancy and controlling activation of a light based on the sensed motion and the sensed variations in ambient light. | 03-21-2013 |
20130088168 | COMMISSION OF DISTRIBUTED LIGHT FIXTURES OF A LIGHTING SYSTEM - Apparatuses, methods, apparatuses and systems for commissioning a light fixture are disclosed. One method includes receiving, by the light fixture, a message from a central controller, wherein reception of the message puts the light fixture into a known condition, establishing communication between the light fixture and a user, and communicating, by either the light fixture or the user, a location of the user at a time of the established communication, to the central controller, thereby allowing the central controller to record a location of the light fixture. | 04-11-2013 |
20130184892 | BUILDING LOAD REDUCTION DURING DEMAND RESPONSE - Apparatuses, methods and systems for managing a building load reduction of a plurality of loads within a building are disclosed. One method includes assigning one or more loads of the plurality of loads to logical groups, assigning a sensitivity coefficient to each of the logical groups, wherein the sensitivity coefficient is directly proportional to an impact on occupants in the building to load changes, determining the baseline load for each of the logical groups, receiving a power reduction demand response, and reducing a load of each logical group based upon the sensitivity coefficient. | 07-18-2013 |
20130221860 | CONTROLLING A PARAMETER OF A DEVICE THROUGH QUALIFIED MOTION SENSING - Methods and apparatuses for controlling a parameter of a device through motion sensing are disclosed. One apparatus includes a motion sensor for sensing a first instance of motion. The apparatus further includes a controller interfaced to the motion sensor and the device, wherein the controller is operative to activate the light only if consecutive instances of motion are sensed, wherein each instance is sensed within a gap of time of a previously sensed instance of motion, and the consecutive instances of motion being sensed span an entire window of time after sensing the first instance of motion. | 08-29-2013 |
20130257296 | Distributed Lighting Control of an Area - Methods and apparatuses of distributed lighting control are disclosed. One embodiment includes a lighting apparatus. The lighting apparatus includes a light, a sensor associated with the light for sensing a change of light intensity per unit of time greater than a sense threshold, and a controller. The controller is operative to determine if the light is within an area, activate the light at a preselected area light intensity if a light associated with the sensor is within the area and the sensed change of light intensity per unit of time is greater than the sense threshold, and if the light is not within the area, then the light only activates if motion is additionally detected, thereby increasing light intensity over a target area. | 10-03-2013 |
20130320859 | INTELLIGENT LIGHT RETROFIT - An apparatus and method of retrofitting a light fixture are disclosed. One method includes interfacing a retrofit controller with a dimming ballast of the light fixture, connecting the retrofit controller to at least one sensor, and connecting the retrofit controller to a power supply. Another embodiment includes a light fixture retrofit controller and a separate sensor unit. The combination of the retrofit controller and a separate sensor unit are operative to provide power and dimming control of a dimming ballast of an existing light fixture. The dimming control is base on at least one of a signal sensed by the separate sensor unit and control information received from a network. | 12-05-2013 |
20140175990 | AUTOMATICALLY COMMISSIONING LIGHTING CONTROLS USING SENSING PARAMETERS OF THE LIGHTING CONTROLS - Apparatuses, methods, and systems for automatically commissioning lighting controls using sensing parameters of the light controls are disclosed. One embodiment includes a building control system. The building control system includes a plurality of sensors, a plurality of lights associated with the plurality of sensors, and a controller. The controller is operative to receive sense signals from the plurality of sensors, and generate a graph based on the sensed signals, wherein the graph includes nodes that represent light locations, and edges that represent distances between the lights. For an embodiment, the controller further operative to performing inexact graph matching between a floor plan graph and the sensor graph, thereby automatically commissioning the plurality of lights based on the sensed signals of the plurality of sensors. | 06-26-2014 |