LED light interior room and building communication system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-010/00
H04B-010/116
H04B-010/11
H04B-010/114
H05B-037/02
H04B-010/40
G01S-001/70
H04B-010/50
H04Q-011/00
H04W-004/02
F21K-009/20
H04B-003/54
H05B-033/08
출원번호
US-0168939
(2016-05-31)
등록번호
US-10050705
(2018-08-14)
발명자
/ 주소
Pederson, John C.
Brown, Paul R.
Vogt, Timothy J.
LeClaire, James
Zimmerman, James
Mikkelsen, Brent
출원인 / 주소
Federal Law Enforcement Development Services, Inc.
대리인 / 주소
Vidas, Arrett & Steinkraus, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
346
초록▼
An LED light and communication system in communication with a broadband over power line communications system. The LED light and communication system includes at least one optical transceiver. The optical transceiver includes a light support having a plurality of light emitting diodes and at least o
An LED light and communication system in communication with a broadband over power line communications system. The LED light and communication system includes at least one optical transceiver. The optical transceiver includes a light support having a plurality of light emitting diodes and at least one photodetector attached thereto, and a processor. The processor is in communication with the light emitting diodes and the at least one photodetector. The processor is constructed and arranged to generate a communication signal. The at least one optical transceiver is engaged to a clock, and the clock is in communication with the broadband over power line communications system.
대표청구항▼
1. In combination, an LED light and communication system in communication with a broadband over power line communications system, comprising: a plurality of optical transceivers disposed throughout a facility each of said optical transceivers comprising a processor, a plurality of light emitting dio
1. In combination, an LED light and communication system in communication with a broadband over power line communications system, comprising: a plurality of optical transceivers disposed throughout a facility each of said optical transceivers comprising a processor, a plurality of light emitting diodes, and at least one photodetector, said plurality of light emitting diodes generating light as illumination, said processor being in communication with said plurality of light emitting diodes and said at least one photodetector, said processor being constructed and arranged for transmission of at least one transmitted communication signal and said at least one photodetector being constructed and arranged for receipt of at least one received communication signal, said at least one transmitted communication signal being embedded within said illumination and having a wavelength in the visible spectrum, and said at least one received communication signal being embedded within a light signal having a wavelength in the visible spectrum, each of said at least one transmitted communication signal and said at least one received communication signal comprising a plurality of rapid flashes of light, said rapid flashes of light not observable to an individual, wherein said rapid flashes of light are configured for transmission of information or data, each of said plurality of optical transceivers further comprising at least one internal optical transceiver location identifier, said at least one transmitted communication signal comprising said at least one internal optical transceiver location identifier. 2. The combination of claim 1, said at least one received communication signal comprising at least one last transmission optical transceiver location identifier and at least one destination optical transceiver location identifier, said processor being further constructed and arranged to compare said at least one destination optical transceiver location identifier to said at least one internal optical transceiver location identifier and to re-transmit said at least one received communication signal as said at least one transmitted communication signal when said at least one destination optical transceiver location identifier is not identical to said at least one internal optical transceiver location identifier. 3. The combination of claim 2, wherein said processor is constructed and arranged to replace said at least one last transmission optical transceiver location identifier with said at least one internal optical transceiver location identifier in said at least one received communication signal as said at least one last transmission optical transceiver location identifier. 4. The combination of claim 3, wherein each of said at least one internal optical transceiver location identifier, said at least one last transmission optical transceiver location identifier, and said at least one destination optical transceiver location identifier comprise global positioning system location information. 5. The combination of claim 4, wherein at least one of said plurality of optical transceivers is engaged to and is in communication with an electronic device, said electronic device being in communication with a broadband over power line communications system, said electronic device being further constructed and arranged to receive at least one broadband over power line communication signal from the broadband over power line communication system and to communicate said at least one broadband over power line communication signal to at least one of said plurality of optical transceivers. 6. The combination of claim 1, further comprising an amplifier constructed and arranged to amplify said at least one transmitted communication signal, said combination further comprising at least one of level shifting circuitry, modulation circuitry, phase-shifting keying, amplitude-shifting keying, frequency-shifting keying and quadrature modulation. 7. The combination of claim 1, further comprising an intelligent audio/visual observation and identification database system in communication with said combination of said LED light and communication system and said broadband over power line communication system. 8. The combination of claim 1, wherein at least one of said plurality of optical transceivers is constructed and arranged to communicate with a thermostat. 9. The combination of claim 1, wherein the at least one of said plurality of optical transceivers is constructed and arranged to communicate with a video camera. 10. The combination of claim 1, wherein the at least one of said plurality of optical transceivers is constructed and arranged to communicate with a public address system. 11. The combination of claim 1, wherein the at least one of said plurality of optical transceivers is constructed and arranged to communicate with a smoke detector. 12. The combination of claim 1, wherein said processor is constructed and arranged to receive at least one broadband over power line communication signal and to include said at least one broadband over power line communication signal into at least a portion of said at least one transmitted communication signal. 13. The combination of claim 1, said at least one transmitted communication signal and said at least one received communication signal each comprising at least one data packet. 14. The combination of claim 1, at least one of said plurality of optical transceivers further comprising at least one of a camera, a microphone, and a speaker.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (346)
Mouyard Arthur A. (Glendale Heights IL) Hamby Michael V. (Chicago IL) Tomaszek Paul A. (Des Plaines IL), Alpha-numeric display array and method of manufacture.
Mouyard Arthur A. (Glendale Heights IL) Hamby Michael V. (Chicago IL) Tomaszek Paul A. (Des Plaines IL), Alpha-numeric display array and method of manufacture.
Schmitz ; deceased Rudolf (late of St. Augustin DEX by Thea Schmitz ; executor), Arrangement for cleaning mechanical devices, small parts and/or electronic switching units.
Choi Robert S. (Landisville PA) Kong C. Kwai (Mount Joy PA) Choi Oong (Lancaster PA), Battery-powered flashing superluminescent light emitting diode safety warning light.
Defour Martin (Croissy sur Seine FRX), Collision-avoidance method for cooperating carriers and onboard optical assembly designed for its implementation.
Ross, Allan L.; McWhirter, William D.; Weaver, John S., Combination wireless electrical apparatus controller and energy monitoring device and method of use.
Yuen Kwok-Tung (8/F1 ; Flat E ; Block 1 ; Ravana Garden Shatin ; New Territories HKX) Ho Kenny M. (Room 1827 ; Chiu Man House ; Oi Man Estate ; Ho Man Tin Kowloon HKX), Display device.
Rousseau Jacques (22 ; Chemin du Golf 76200 Dieppe FRX), Display device comprising rotating display elements having a plurality of faces, and display panel composed of such devi.
Yang Edward S. ; Tam Yau-Yee,CNX ; Pang Grantham Kwok-Hung,CNX ; Cheung Sing-Wai,CNX ; Tse Kai-Wing,CNX ; Kwok Paul Chi-Kong,CNX, Handy information display system.
Rallison Richard Dennis ; Amadon C. Gregory ; Mack ; Jr. Wolfgang Adam ; Nikora Leo ; Tseo Eric ; Donaldson Douglas ; Etter Robert T., Head-mounted personal visual display apparatus with image generator and holder.
Lindsay James R. (Brea CA) Meyer Ronald A. (San Dimas CA) Garcia ; Jr. Alexander (Upland CA) Waluszko Alexander (Pasadena CA), Heat dissipating high intensity lamp housing.
Brassier Marc (Vincennes FRX) Gasquet Jean-Claude (Saint-Clement FRX) Segaud Daniel (Paris FRX) Mauroy Bernard (Roissy en Brie FRX), Indicating light unit having modular luminous elements, for a motor vehicle.
Kagawa, Keiichiro; Maeda, Yuki; Ohta, Jun, Information-processing system using free-space optical communication and free-space optical communication system.
De Plaen Etienne (Brussels BEX) Boon-Falleur Thierry (Brussels BEX) Lethe Bernard (Brussels BEX) Szikora Jean-Pierre (Brussels BEX) De Smet Charles (Brussels BEX) Chomez Patrick (Brussels BEX), Isolated nucleic acid molecules useful in determining expression of a tumor rejection antigen precursor.
Pederson, John C.; Brown, Paul R.; Vogt, Timothy J.; LeClaire, James; Zimmerman, James; Mikkelsen, Brent, LED light broad band over power line communication system.
Pederson, John C.; Brown, Paul R.; Vogt, Timothy J.; LeClaire, James; Zimmerman, James; Mikkelsen, Brent, LED light broad band over power line communication system.
Bitar Sami ; Samimy Bahman ; Russell John David ; Glass Kevin Michael ; Malecki Marie Therese-Brodner ; Cardanha Timothy Lino, Light management system for a vehicle.
Nylund Steven L. (Vancouver WA), Light reflection defect detection apparatus and method using pulsed light-emitting semiconductor devices of different wa.
Harrah Shane (Menlo Park CA) Smith Trevor J. (Nevada City CA) Uebbing John (Palo Alto CA) Fajardo Thomas (Santa Clara CA) Kreger Jerry D. (Cupertino CA), Light source and technique for mounting light emitting diodes.
Kalley Terrence D. (Troy MI), Light source for use in leak detection in heating, ventilating, and air conditioning systems that utilize environmentall.
Fletcher Robert M. (San Jose CA) Huang Kuo-Hsin (Sunnyvale CA) Kuo Chihping (Milpitas CA) Yu Jiann (Palo Alto CA) Osentowski Timothy D. (San Jose CA), Light-emitting diode with a thick transparent layer.
Davenport John M. (Lyndhurst OH) Hansler Richard L. (Pepper Pike OH) Allen Gary R. (Chesterland OH) Parham Thomas G. (Gates Mills OH), Lighting system for increasing brightness to a light guide.
Breton Marcel P. (Mississauga CAX) Wong Raymond W. (Mississauga CAX) Schwarz William M. (Webster NY) Gagnon Yvan (Mississauga CAX) Friberg Stig E. (Potsdam NY), Liquid crystalline ink compositions.
Blazey Richard N. ; Miller Paige ; Fedorovskaya Elena A. ; Prabhu Girish V. ; Parks Peter A. ; Patton David L. ; Fredlund John R. ; Horwitz Cecelia M. ; Mir Jose M., Management of physiological and psychological state of an individual using images personal image profiler.
Lowery Christopher H. (Fremont CA) McElfresh David K. (Union City CA) Burchet Steve (Cedar Crest NM) Adolf Douglas B. (Albuquerque NM) Martin James (Tijeras NM), Method and apparatus for improving the performance of light emitting diodes.
Fitzpatrick Greg ; Johnson William J. ; Keller Robert S. ; Williams Marvin L., Method of and apparatus for optical character recognition based on geometric and color attribute hypothesis testing.
Holm Paige M. (Phoenix AZ) Rhyne George W. (Scottsdale AZ) Walczak Thomas J. (Woodstock IL), Method of fabricating an electro-optic integrated circuit having light emitting diodes.
Brassier Marc (Vincennes FRX) Gasquet Jean-Claude (Saint-Clement FRX) Segaud Daniel (Paris FRX) Mauroy Bernard (Roissy en Brie FRX), Modular element for motor vehicle indicator lights.
Abeles Joseph Hy ; Connolly John Charles ; Stephens William Edward ; Camisa Raymond Louis, Multiwavelength mode-locked dense wavelength division multiplexed optical communication systems.
Krumes Rolf (Anaheim CA) Richman Dennis C. (Irvine CA) Bose Carl L. (Rancho Palos Verdes CA), Obstacle avoidance system for helicopters and other aircraft.
Kennedy John (11 Mollison Court Guelph ; Ontario CAX N1C 1A7 ) Kayser Roy (#307-2645 Jane Street Toronto ; Ontario CAX M3O 2J3 ), Portable light emitting apparatus with a semiconductor emitter array.
Bader Joseph F. (Crete IL) Gieffers Ward (Oak Lawn IL) Benner Michael (Lisle IL) Kekeis Kent A. (Munster IN) Hilburger Dennis J. (Dolton IL), Programmable emergency signalling device and system.
Snaper Alvin A. (2800 Cameo Cir. Las Vegas NV 89107), Proximity detection and warning system having a light pulse sensor and circuit responsive only to particular select freq.
Bortolussi Jay F. ; Cusack ; Jr. Francis J. ; Ehn Dennis C. ; Kuzeja Thomas M. ; Saulnier Michael S., Real-time facial recognition and verification system.
Titterton Paul J. (Palo Alto CA) Martin Frederick (Menlo Park CA) Radecki Dan J. (San Jose CA) Cotterman Robert W. (Rocklin CA), Secure two-way submarine communication system.
Lebby Michael S. (Chandler AZ) Ackley Donald E. (Paradise Valley AZ), Superluminescent edge emitting device with apparent vertical light emission and method of making.
Wurman, Peter R.; D'Andrea, Raffaello; Barbehenn, Michael T.; Hoffman, Andrew E.; Mountz, Michael C., System and method for generating a path for a mobile drive unit.
Eckert,David D.; Bontemps,Evan J.; Carey, III,Paul D.; Goodwin,Richard E.; Hatfield,Keith E.; Lorenz,Joseph P.; Nevish,Keith A.; Spang,Edward J.; Westerberg,Glen S., System and method for locating and communicating with personnel and equipment in a facility.
Tymes LaRoy (4032 Campana Dr. Palo Alto CA 94306), System for converting a received modulated light into both power for the system and image data displayed by the system.
Gebert Ruediger H. (P.O. Box 14183 Verwoerdburg ; 0140 ZAX) Van Maarseveen Carl A. (P.O. Box 14183 Verwoerdburg ; 0140 ZAX), System for monitoring vehicles having a start and a stop pair of beams.
Johnson Bruce E. (Seattle WA) Lindsay Thomas A. (Brier WA) Brodeur David L. (Seattle WA) Morton ; deceased Randall E. (late of Redmond WA by Lori Morton ; legal representative ) Regnier Mark A. (Both, Wide-angle, high-speed, free-space optical communications system.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.