Object-sensing lighting network and control system therefor
First Claim
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1. A dynamic street lighting fixture network comprising a plurality of street lighting fixture nodes in network communication with one another, each of the street lighting fixture nodes comprising:
- at least one street lighting fixture having at least one LED light source, a controller in communication with said LED light source, a motion detection system in electrical communication with said controller, a data transmission system in electrical communication with said controller, and a data reception system in electrical communication with said controller;
said motion detection system of each of said street lighting fixture nodes operable to detect an object within a coverage range and communicate detection of said object to said controller;
wherein said data transmission system transmits street lighting fixture node identification data when said object is sensed by said motion detection system;
said data reception system of each of said street lighting fixture nodes operable to receive said street lighting fixture node identification data from other of said street lighting fixture nodes and communicate said street lighting fixture node identification data to said controller;
wherein during periods of low activity within said street lighting fixture network, the controller of a first street lighting fixture node is operable to dynamically determine a fixed temporal relationship between said first street lighting fixture node and each of the remaining street lighting fixture nodes;
wherein each said temporal relationship is based on analysis of a plurality of determined time differences between said first street lighting fixture node and a respective one of the remaining street lighting fixture nodes, each of said determined time differences comprising the difference in time between detection of a moving object by the motion detector of the first street lighting fixture node, and receipt by said first street lighting fixture node of street lighting fixture node identification data from the respective one of the remaining street lighting fixtures, wherein the street lighting fixture node identification data is sent in response to detection of the same moving object by the respective one of the remaining street lighting fixtures;
wherein the determined fixed temporal relationship between said first street lighting fixture node and at least one of the remaining street lighting fixture nodes is adjusted when the controller detects an increase or a decrease in the time difference between the first street lighting fixture node and the at least one of the remaining street lighting fixture nodes.
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Abstract
Disclosed herein is an object—sensing lighting network and an intelligent control system therefore. The control system dynamically determines the at least one lighting fixture'"'"'s relationship to a plurality of other lighting fixtures. The light output level of a light source of the at least one lighting fixture is based at least partially on the at least one lighting fixture'"'"'s relationship to the other lighting fixtures.
8 Citations
20 Claims
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1. A dynamic street lighting fixture network comprising a plurality of street lighting fixture nodes in network communication with one another, each of the street lighting fixture nodes comprising:
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at least one street lighting fixture having at least one LED light source, a controller in communication with said LED light source, a motion detection system in electrical communication with said controller, a data transmission system in electrical communication with said controller, and a data reception system in electrical communication with said controller; said motion detection system of each of said street lighting fixture nodes operable to detect an object within a coverage range and communicate detection of said object to said controller; wherein said data transmission system transmits street lighting fixture node identification data when said object is sensed by said motion detection system; said data reception system of each of said street lighting fixture nodes operable to receive said street lighting fixture node identification data from other of said street lighting fixture nodes and communicate said street lighting fixture node identification data to said controller; wherein during periods of low activity within said street lighting fixture network, the controller of a first street lighting fixture node is operable to dynamically determine a fixed temporal relationship between said first street lighting fixture node and each of the remaining street lighting fixture nodes; wherein each said temporal relationship is based on analysis of a plurality of determined time differences between said first street lighting fixture node and a respective one of the remaining street lighting fixture nodes, each of said determined time differences comprising the difference in time between detection of a moving object by the motion detector of the first street lighting fixture node, and receipt by said first street lighting fixture node of street lighting fixture node identification data from the respective one of the remaining street lighting fixtures, wherein the street lighting fixture node identification data is sent in response to detection of the same moving object by the respective one of the remaining street lighting fixtures; wherein the determined fixed temporal relationship between said first street lighting fixture node and at least one of the remaining street lighting fixture nodes is adjusted when the controller detects an increase or a decrease in the time difference between the first street lighting fixture node and the at least one of the remaining street lighting fixture nodes. - View Dependent Claims (2, 3, 4, 5)
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6. A control system for at least one lighting fixture, comprising:
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a controller having a light source communication output; a motion detector in electrical communication with said controller; a data transmitter in electrical communication with said controller; and a data receiver in electrical communication with said controller; said motion detector operable to detect an object within a lighting fixture coverage range; said data receiver operable to receive lighting fixture identification data from at least one of a plurality of lighting fixtures, said lighting fixture identification data indicative of object detection by a specific of said lighting fixtures; said controller operable to be initially dynamically calibrated during periods of low activity; wherein said controller is calibrated by dynamically determining a fixed temporal relationship to each of a plurality of said lighting fixtures through analysis of a plurality of determined time differences for each of said lighting fixtures, each of said determined time differences comprising the difference in time between detection of a moving object by said motion detector and receipt at said data receiver of lighting fixture identification data from one of said lighting fixtures wherein the lighting fixture identification data is sent in response to detection of the same moving object; wherein after said controller is calibrated, said controller is operable to selectively alter an output signal over said light source communication output based only on said temporal relationship to one of said lighting fixtures corresponding to at least one recently received said lighting fixture identification data; and wherein after said controller is calibrated, said controller is recalibrated by updating the determined fixed temporal relationship, said recalibration caused by detection of an increase or a decrease in the time difference between detection of a moving object by said motion detector and receipt at said data receiver of lighting fixture identification data from one of said lighting fixtures. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A lighting fixture having a control system for communicating with a plurality of lighting fixtures in a lighting fixture network, comprising:
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at least one light source; a controller in electrical communication with said light source; a motion detector in electrical communication with said controller; a data transmitter in electrical communication with said controller; and a data receiver in electrical communication with said controller; said motion detector operable to detect an object within a lighting fixture coverage range; said data receiver operable to receive lighting fixture identification data from a plurality of lighting fixtures, each said lighting fixture identification data indicative of object detection by a specific of said lighting fixtures; wherein said controller is dynamically calibrated by determining a fixed temporal and spatial relationship to each of a plurality of said lighting fixtures through analysis of a plurality of determined time differences for each of said lighting fixtures, each of said determined time differences related to the difference in time between detection of a moving object by said motion detector and receipt at said data receiver of lighting fixture identification data from one of said lighting fixtures, wherein the lighting fixture identification data is sent in response to detection of the same moving object; wherein after said controller is calibrated, said controller is operable to ensure said light source produces a first level of light output when a recently received said lighting fixture identification data is indicative of one of said lighting fixtures whose said temporal relationship is within a first time period and when said recently received lighting fixture identification data and at least one lighting fixture identification data preceding said recently received lighting fixture identification data is indicative of a spatial relationship that is decreasing; wherein after said controller is calibrated, said controller is recalibrated by updating the determined fixed temporal relationship, said recalibration caused by detection of an increase or a decrease in the time difference between detection of a moving object by said motion detector and receipt at said data receiver of lighting fixture identification data from at least one of said lighting fixtures. - View Dependent Claims (14, 15)
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16. A method of calibrating a lighting fixture within a lighting fixture network, comprising:
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monitoring a lighting fixture network for a period of low activity; receiving, at the lighting fixture, lighting fixture identification data from each of a plurality of lighting fixtures within the lighting fixture network during said period of low activity, each of said lighting fixture identification data indicative of detection of a moving object proximal one of a plurality of lighting fixtures; detecting, by the lighting fixture, an object within a reference lighting fixture coverage range during said period of low activity; determining a plurality of time differences between the lighting fixture and each of the plurality of lighting fixtures within the lighting fixture network, wherein each of said time differences comprises the difference in time between detection of a moving object within said lighting fixture coverage range and receipt of said lighting fixture identification data from a single of said lighting fixtures; calculating a fixed temporal relationship between each of said lighting fixtures, said temporal relationship related to a plurality of said determined time differences; and adjusting the fixed temporal relationship between at least two of said lighting fixtures when an increase or decrease in the time differences between the at least two of said lighting fixtures is detected. - View Dependent Claims (17, 18, 19)
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20. A method of controlling a lighting fixture within a lighting fixture network comprising a plurality of lighting fixtures, the method comprising the steps of:
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monitoring a lighting fixture network for a period of low activity; receiving lighting fixture identification data from each of a plurality of lighting fixtures within the lighting fixture network during said period of low activity, each of said lighting fixture identification data indicative of detection of a moving object proximal a respective one of the plurality of lighting fixtures; detecting an object within a reference lighting fixture coverage range during said period of low activity; determining a plurality of time differences for each of said lighting fixtures, wherein each of said calculated time differences comprises the difference in time between detection of a moving object within said reference lighting fixture coverage range and receipt of said lighting fixture identification data; calculating a fixed temporal relationship between each of said lighting fixtures, said temporal relationship related to a plurality of said determined time differences; causing at least one light source proximal said reference lighting fixture coverage range to be powered with power having predetermined characteristics, wherein said predetermined characteristics are dependent on said temporal relationship of a lighting fixture corresponding to a recently received said lighting fixture identification data; detecting an increase or decrease in a plurality of determined time differences between the at least two of said lighting fixtures; and calculating, when said increase or decrease is detected, an updated fixed temporal relationship between the at least two of said lighting fixtures.
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Specification