Occupancy detection system and method having automatic adaptation capabilities
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G05D-003/12
G05D-005/00
G05D-009/00
G05D-011/00
G05D-017/00
H01J-001/60
H01J-007/42
H05B-037/04
H05B-037/02
H05B-039/04
H05B-041/36
G08B-013/00
G08B-023/00
G01S-013/00
출원번호
US-0293281
(2011-11-10)
등록번호
US-8909382
(2014-12-09)
발명자
/ 주소
Malakuti, Kaveh
출원인 / 주소
Universal Lighting Technologies, Inc.
대리인 / 주소
Waddey Patterson
인용정보
피인용 횟수 :
4인용 특허 :
11
초록▼
An occupancy detection system includes a motion detector, one or more sound detectors and a lighting controller configured to turn on and off one or more lighting devices in a defined area based on detected occupancy states. Lighting control circuitry determines occupancy states based on motion dete
An occupancy detection system includes a motion detector, one or more sound detectors and a lighting controller configured to turn on and off one or more lighting devices in a defined area based on detected occupancy states. Lighting control circuitry determines occupancy states based on motion detector output signals and sound detector output signals, and further controls associated lighting devices to be turned ON or OFF in accordance with determined occupancy states and an automatically adaptable timeout period. The timeout period is automatically adjusted in accordance with newly recorded time stamps for lighting status changes, based on a second order occupancy distribution analysis such as a Gaussian probability distribution function, with an occupancy curve adjusted for each newly recorded set of time stamps and the timeout period being adjusted according to the mean and variance of the occupancy curve.
대표청구항▼
1. An occupancy detection system comprising: a motion detector effective to provide an output signal based on detected motion in a defined area;a sound detector effective to provide an output signal based on detected sound in the defined area; anda lighting controller effective to determine a first
1. An occupancy detection system comprising: a motion detector effective to provide an output signal based on detected motion in a defined area;a sound detector effective to provide an output signal based on detected sound in the defined area; anda lighting controller effective to determine a first occupancy state based on a received motion detector output signal and a second occupancy state based on a received sound detector output signal,control one or more associated lighting devices to be turned from OFF to ON in accordance with a determined first occupancy state of ON,control the lighting devices to be turned from ON to OFF in accordance with determined first and second occupancy states of OFF for longer than a timeout period,record time stamps in association with events causing the lighting devices to be turned OFF and in association with events causing the lighting devices to be turned ON, andautomatically adjust the timeout period upon receiving new time stamps based on a second order occupancy distribution analysis including each of the recorded time stamps and comprising an occupancy curve having a mean and a variance associated with a Gaussian probability distribution function, the occupancy curve being adjusted for each newly recorded set of time stamps and the timeout period being adjusted according to the mean and variance of the occupancy curve. 2. The system of claim 1, the second order distribution analysis comprising calculating the occupancy curve wherein the mean is greater than two times the variance. 3. The system of claim 1, the controller further effective to toll a grace period in response to determined first and second occupancy states of OFF throughout the duration of the timeout period, andcontrol the one or more lighting devices to be turned ON in response to a determined first or second occupancy state of ON during the grace period. 4. The system of claim 3, further comprising an acoustic amplifier associated with the sound detector and having a gain configured to constantly decrease along a decay curve upon tolling of the grace period, wherein the duration of the grace period is determined by a decay constant associated with the gain. 5. The system of claim 4, the controller further effective to calculate the decay constant from the variance associated with the occupancy curve. 6. The system of claim 4, the controller further effective to calculate the gain from the mean associated with the occupancy curve. 7. The system of claim 1, further comprising a motion detector sensitivity control having a sensitivity threshold value, the controller further effective to calculate the sensitivity threshold value from the mean associated with the occupancy curve. 8. An occupancy detection network comprising: one or more motion detection modules configured to be positioned in each of one or more defined areas and each effective to provide an output signal based on detected motion in an associated area;one or more sound detection modules configured to be positioned in each of the defined areas and further comprising circuitry effective to generate an ON output signal when sound is detected in an associated area during an OFF lighting state,generate an OFF output signal when a timeout period lapses with no sound detected during an ON lighting state,record time stamps in association with sound detection events, andautomatically adjust the timeout period upon recording new time stamps based on a second order occupancy distribution analysis further including each of the previously recorded time stamps and comprising an occupancy curve having a mean and a variance associated with a Gaussian probability distribution function, the occupancy curve being adjusted for each newly recorded set of time stamps and the timeout period being adjusted according to the mean and variance of the occupancy curve;each of said motion detection modules and said sound detection modules configured to be assigned an address associated with an area in which they are positioned; anda central lighting controller configured to be functionally linked to each of the motion detection modules and sound detection modules via a common bidirectional data bus, and effective to control one or more associated lighting devices to be turned on and off in accordance with output signals received from the detection modules. 9. The network of claim 8, the second order distribution analysis comprising calculating the occupancy curve wherein the mean is greater than two times the variance. 10. The network of claim 8, the one or more sound detection modules further comprising an acoustic amplifier having an acoustic gain calculated from the mean associated with the occupancy curve. 11. The network of claim 10, the sound detection module further comprising circuitry effective to constantly decrease the acoustic gain along a decay curve upon tolling of the timeout period, wherein the duration of the timeout period is determined in part by a decay constant associated with the gain. 12. The network of claim 11, the sound detection module further comprising circuitry effective to calculate the decay constant from the variance associated with the occupancy curve. 13. The network of claim 8, the timeout period associated with the sound detection module comprising a first timeout period, the motion detection module further comprising motion detection sensitivity control circuitry effective to generate an ON output signal when motion is detected in an associated area during an OFF lighting state,generate an OFF output signal when a second timeout period lapses with no motion detected during an ON lighting state,record time stamps in association with motion detection events, andautomatically adjust the second timeout period upon recording new time stamps based on a second order occupancy distribution analysis comprising an occupancy curve having a mean and a variance associated with a Gaussian probability distribution function, the occupancy curve being adjusted for each newly recorded set of time stamps and the second timeout period being adjusted according to the mean and variance of the occupancy curve. 14. The network of claim 13, the motion detection sensitivity control circuitry further effective to calculate a motion detection sensitivity threshold value from the mean associated with the occupancy curve. 15. A sound detection module for use with a lighting controller associated with a defined area, the sound detection module comprising: one or more sound detectors effective to generate signals associated with sound in the defined area; andsound detection control circuitry effective to generate an ON output signal to the lighting controller when sound is detected in an associated area during an OFF lighting state,generate an OFF output signal to the lighting controller when a timeout period lapses with no sound detected during an ON lighting state,record time stamps in association with sound detection events, andautomatically adjust the timeout period based on a second order occupancy distribution analysis comprising an occupancy curve having a mean and a variance associated with a Gaussian probability distribution function, the occupancy curve including previously recorded time stamps and being adjusted for each newly recorded set of time stamps, and the timeout period being adjusted according to the mean and variance of the occupancy curve. 16. The sound detection module of claim 15, the sound detection control circuitry further comprising an acoustic amplifier having an acoustic gain calculated from the mean associated with the occupancy curve. 17. A motion detection module for use with a lighting controller associated with a defined area, the motion detection module comprising: a motion detector effective to generate signals associated with motion in the defined area; andmotion detection sensitivity control circuitry effective to generate an ON output signal to the lighting controller when motion is detected in an associated area during an OFF lighting state,generate an OFF output signal to the lighting controller when a timeout period lapses with no motion detected during an ON lighting state,record time stamps in association with motion detection events, andautomatically adjust the timeout period based on a second order occupancy distribution analysis comprising an occupancy curve having a mean and a variance associated with a Gaussian probability distribution function, the occupancy curve including previously recorded time stamps and being adjusted for each newly recorded set of time stamps, and the timeout period being adjusted according to the mean and variance of the occupancy curve. 18. The motion detection module of claim 17, the motion detection sensitivity control circuitry further effective to calculate a motion detection sensitivity threshold value from the mean associated with the occupancy curve.
Eckel David Philip (Wetherfield CT) Batko Thomas James (Wallingford CT) Walter Mark Richard (Bridgeport CT) Rose William James (West Hartford CT) Donlon Brian Patrick (Shelton CT) Zeichner David Abra, Motion sensing system with adaptive timing for controlling lighting fixtures.
Eckel David Philip ; Batko Thomas James ; Walter Mark Richard ; Rose William James ; Donlon Brian Patrick ; Zeichner David Abraham, Motion sensing system with adaptive timing for controlling lighting fixtures.
Douglas D. Myron ; Vadim A. Konradi ; Bruce G. Williams ; John J. Fowler ; Timothy W. Woytek ; Jonathan D. Williams ; Gerard L. Cullen, Occupancy sensor and method of operating same.
Myron Douglas D. (Austin TX) Williams Errol R. (Round Rock TX) Hardin Charles C. (Austin TX) Woytek Timothy W. (Austin TX) Stephens Michael A. (Austin TX), Occupancy sensor and method of operating same.
Myron Douglas D. ; Konradi Vadim A. ; Williams Bruce G. ; Fowler John J. ; Woytek Timothy W. ; Williams Jonathan D. ; Cullen Gerard L., Occupancy sensor and method of operating same.
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