Method and system for dynamic configuration of multiprocessor system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-009/46
G06F-009/445
H04L-029/06
B60R-025/00
G06Q-030/06
H04L-012/40
H04L-012/403
H04L-012/24
G06F-011/20
G06F-011/30
G06F-011/32
G07C-005/08
H04L-029/08
G06F-013/40
출원번호
US-0981616
(2015-12-28)
등록번호
US-10102013
(2018-10-16)
발명자
/ 주소
Preston, Dan Alan
Lutter, Robert Pierce
출원인 / 주소
NORTHWATER INTELLECTUAL PROPERTY FUND, L.P. 2
대리인 / 주소
Norton Rose Fulbright Canada LLP
인용정보
피인용 횟수 :
0인용 특허 :
310
초록▼
A multiprocessor system used in a car, home, or office environment includes multiple processors that run different real-time applications. A dynamic configuration system runs on the multiple processors and includes a device manager, configuration manager, and data manager. The device manager automat
A multiprocessor system used in a car, home, or office environment includes multiple processors that run different real-time applications. A dynamic configuration system runs on the multiple processors and includes a device manager, configuration manager, and data manager. The device manager automatically detects and adds new devices to the multiprocessor system, and the configuration manager automatically reconfigures which processors run the real-time applications. The data manager identifies the type of data generated by the new devices and identifies which devices in the multiprocessor system are able to process the data. A communication system for a mobile vehicle, home, or office environment includes multiple processors. The multiple processors each run an Open Communication system that controls how data is transferred between processors based on data content as opposed to the links that connect the processors together. The open communication system enables data or messages to be effectively transferred and processed for real-time applications or other server based applications that may be running on the multiple processors in a secure environment regardless of processors, locations, or data links.
대표청구항▼
1. A multiprocessor system used in a home or office, comprising: a real-time network established between processors used in at least one of appliances, audio control systems, video control systems, heating systems, security systems, and computers, wherein the real-time network comprises at least one
1. A multiprocessor system used in a home or office, comprising: a real-time network established between processors used in at least one of appliances, audio control systems, video control systems, heating systems, security systems, and computers, wherein the real-time network comprises at least one of wired and wireless, and wherein the real-time network is connected to a remote server by at least one Transmission Control Protocol/Internet Protocol (TCP/IP) packet switched link, and wherein the remote server runs at least one of real-time applications and other server based applications;an application processor connected to the real-time network and configured in a language to implement instructions for at least one of devices and applications used in the real-time network, and configured to monitor data from different sensors in the at least one of devices and applications; anda display processor connected to the real-time network and configured in the language to implement instructions for the at least one of devices and applications used in the real-time network, wherein the instructions control and monitor the application processor through the remote server using a graphical user interface. 2. The system of claim 1, wherein the application processor is an appliance processor, and wherein the appliance is at least one of a home appliance and an office appliance. 3. The system of claim 1, wherein the wireless real-time network comprises one of 802 IEEE wireless standards and Bluetooth. 4. The system of claim 1, wherein the real-time network is configured to operate in a variety of different languages. 5. The system of claim 1, wherein the language is HTML. 6. The system of claim 1, wherein the language includes at least one of Java, C, and XML. 7. The system of claim 1, wherein the different sensors include at least one of non-contact sensors and direct contact sensors used in conjunction with an appliance. 8. The system of claim 7, wherein the non-contact sensors are used in support of security systems and include at least one of radar, lidar, IR, and image. 9. The system of claim 7, wherein the direct contact sensors are used in support of heating systems and include at least one of temperature and flow. 10. A multiprocessor method used in a home or office, comprising: using a real-time network established between processors used in appliances, audio control systems, video control systems, heating systems, security systems, and computers, wherein the real-time network comprises at least one of one of wired and wireless, and wherein the real-time network is connected to a remote server by at least one Transmission Control Protocol/Internet Protocol (TCP/IP) packet switched link, and wherein the remote server runs at least one of real-time applications and other server based applications;using an application processor connected to the real-time network and configured in a language to implement instructions for at least one of devices and applications used in the real-time network, and operative to monitor data from different sensors in the at least one of devices and applications; andusing a display processor connected to the real-time network and configured in the language to implement instructions for the at least one of devices and applications used in the real-time network to control and monitor the application processor through the remote server using a graphical user interface. 11. The method of claim 10, wherein the application processor is an appliance processor, and wherein the appliance is at least one of a home appliance and an office appliance. 12. The method of claim 10, wherein the wireless real-time network comprises one of 802 IEEE wireless standards and Bluetooth. 13. The method of claim 10, wherein the real-time network is configured to operate in a variety of different languages. 14. The method of claim 10, wherein the language is HTML. 15. The method of claim 10, wherein the language includes at least one of Java, C, and XML. 16. The method of claim 10, wherein the different sensors include at least one of non-contact sensors and direct contact sensors used in conjunction with an appliance. 17. The method of claim 16, wherein the non-contact sensors are used in support of security systems and include at least one of radar, lidar, IR, and image. 18. The method of claim 16, wherein the direct contact sensors are used in support of heating systems and include at least one of temperature and flow.
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Ohmura, Hiroshi; Ushio, Masao; Hosoda, Kouji; Hirabayashi, Shigefumi, AUDIO SYSTEM AND ITS CONTENTS REPRODUCTION METHOD, AUDIO APPARATUS FOR A VEHICLE AND ITS CONTENTS REPRODUCTION METHOD, PORTABLE AUDIO APPARATUS, COMPUTER PROGRAM PRODUCT AND COMPUTER-READABLE STORAGE.
Graham Paul D. (LaGrange Park IL) Sink Gregory A. (Homewood IL) Williams Jerry L. (Tinley Park IL), Alerting device and system for abnormal situations.
Nelson, Douglas G., Anti-hijacking system operable in emergencies to deactivate on-board flight controls and remotely pilot aircraft utilizing autopilot.
Gudat Adam J. ; Shin Dong Hun ; Whittaker William L. ; Kleimenhagen Karl W. ; Clow Richard G. ; Singh Sanjiv J. ; Christensen Dana A. ; Kemner Carl A. ; Bradbury Walter J. ; Koehrsen Craig L. ; Kyrts, Apparatus and method for autonomous vehicle navigation using absolute data.
Jossef Goldberg ; Timothy J. Cullen ; Owen W. Paulus ; Mark M. Moeller ; Paul A. Horenberger, Application-to-component communications helper in a vehicle computer system.
Preston,Dan A.; Preston,Joseph; Leyendecker,Robert; Eatherly,Wayne; Proctor,Rod L., Cellular telephone having improved in-band signaling for data communications over digital wireless telecommunications networks.
Phillips William C. ; Pascale Michael V. ; Minarik Ronald W. ; Schmidt Kenneth M. ; Weigand Benjamin F. ; Dirndorfer Walter M. ; Prill Robert S. ; Siegel Arnold B. ; Nogay Richard H., Common receive module for a programmable digital radio.
Marc T. Jones ; Charles W. Spaur ; Michael A. Tibbetts ; Patrick J. Kennedy, Communications involving disparate protocol network/bus and device subsystems.
Tang Jun ; So John Ling Wing, Computer operating process allocating tasks between first and second processors at run time based upon current processor load.
Kerr Jeffrey L. ; So John Ling Wing ; Magee Steven R., Data transfer circuitry, DSP wrapper circuitry and improved processor devices, methods and systems.
So John Ling Wing ; Kerr Jeffrey L. ; Magee Steven R. ; Tang Jun, Devices, methods, systems and software products for coordination of computer main microprocessor and second microprocessor coupled thereto.
Gu, Ye; Ford, Peter S.; Knight, Holly; Goland, Yaron Y.; Leach, Paul J., Dynamic self-configuration for ad hoc peer networking using mark-up language formated description messages.
Fournier,Andre F. A.; Jahani,Allen A.; Sawyer,Michael S.; Grant,Stephen M., Facility and method for wireless transmission of location data in a voice channel of a digital wireless telecommunications network.
Shiozaki, Tomoyuki, Imaging apparatus including a control unit configured to change a correction value for correcting an output of an orientation detection unit.
Preston, Dan A.; Preston, Joseph; Leyendecker, Robert; Eatherly, Wayne; Proctor, Rod L., In-band signaling for data communications over digital wireless telecommunications network.
Preston, Dan A.; Preston, Joseph D.; Leyendecker, Robert; Eatherly, Wayne; Proctor, Rod L.; Smith, Phillip R., In-band signaling for data communications over digital wireless telecommunications networks.
Preston,Dan A.; Preston,Joseph D.; Leyendecker,Robert; Eatherly,Wayne; Proctor,Rod L.; Smith,Philip R., In-band signaling for data communications over digital wireless telecommunications networks.
Shaw Jack C. (Kirkland WA) Gilbert John F. (Des Moines WA) Olbrechts Guy R. (Bellevue WA) McIntyre Melville D. (Bellevue WA), Integrated-strapdown-air-data sensor system.
Bianconi,Richard J.; Speas,Michael K.; Law, Jr.,Albert G.; Teyssot,Laurent, Location based billing of data services in a mobile telecommunication system.
Shteyn Yevgeniy Eugene, Method and apparatus for a low data-rate network to be represented on and controllable by high data-rate home audio/video interoperability (HAVi) network.
Macias-Garza Fernando,MXX ; Miller Todd W. ; McGraw Montgomery C., Method and apparatus for comparing real time operation of object code compatible processors.
Pecen, Mark Edward; Andersen, Niels Peter Skov; Stewart, Kenneth; Willis, Lawrence Alan, Method and apparatus for controlling multiple logical data flow in a variable data rate environment.
Tsutsumi Kazumichi (Tokyo JPX) Okamura Shigekazu (Tokyo JPX) Irie Tatsuji (Tokyo JPX), Method and apparatus for monitoring the surroundings of a vehicle and for detecting failure of the monitoring apparatus.
Massie Dana C. ; Sun John D. ; Friedman Sol D. ; Martens William L. ; Rossum David P., Method and apparatus for three dimensional audio spatialization.
Shuman Valerie ; Paulauskas Cynthia ; Shields T. Russell ; Weiland Richard J. ; Jasper John C., Method and system for an in-vehicle computing architecture.
Shuman, Valerie; Paulauskas, Cynthia; Shields, T. Russell; Weiland, Richard J.; Jasper, John C., Method and system for an in-vehicle computing architecture.
Ghori Amar ; White John, Method and system for coupling a personal computer with an appliance unit via a wireless communication link to provide an output display presentation.
Colson James Campbell ; Alewine Neal, Method and system for vehicle initiated delivery of advanced diagnostics based on the determined need by vehicle.
Preston, Dan A.; Preston, Joseph; Leyendecker, Robert; Eatherly, Wayne; Proctor, Rod L., Method for in-band signaling of data over digital wireless telecommunications networks.
Preston,Dan A.; Preston,Joseph; Leyendecker,Robert; Eatherly,Wayne; Proctor,Rod L., Method for in-band signaling of data over digital wireless telecommunications networks.
Fournier, Andre F. A.; Jahani, Allen A.; Sawyer, Michael S.; Grant, Stephen M., Method for pulling geographic location data from a remote wireless telecommunications mobile unit.
Farris Robert D. ; Flaherty Stephen J. ; Goodman William D., Mobile data/message/electronic mail download system utilizing network-centric protocol such as Java.
Dan A. Preston ; Joseph D. Preston ; Robert Leyendecker ; Wayne Eatherly ; Rod L. Proctor ; Philip R. Smith, Multichannel in-band signaling for data communications over digital wireless telecommunications networks.
van der Merwe,Rudolph; Wan,Eric A.; Julier,Simon J., Navigation system applications of sigma-point Kalman filters for nonlinear estimation and sensor fusion.
Walgers Erik J.,NLX ; Emmerink Carla J. M.,NLX ; Lahaije Paul D. M.,NLX ; Mulder Edwin W.,NLX, Navigation system for providing an optimal route from traffic messages.
Everett ; Jr. Hobart R. (San Diego CA) Gilbreath Gary A. (San Diego CA) Laird Robin T. (San Diego CA), Navigational control system for an autonomous vehicle.
Saito, Masaki; Ishikawa, Naoto, Periphery monitoring device for motor vehicle and recording medium containing program for determining danger of collision for motor vehicle.
DeLuca Amedeo (Philadelphia PA) Gentry ; Sr. James E. (Mount Laurel NJ) Thomas David L. (Millville NJ) Landry Norman R. (Mount Laurel NJ) Agrawal Ashok K. (Mount Laurel NJ), Phased array antenna with distributed beam steering.
Mathiassen, Svein; Mathiassen, Ivar, Portable or embedded access and input devices and methods for giving access to access limited devices, apparatuses, appliances, systems or networks.
Fuchs Wesley K. (Mahomet IL) Huang Yennun (Bridgewater NJ) Kintala Chandra M. (Warren NJ) Wang Yi-Min (Berkeley Heights NJ), Progressive retry method and apparatus having reusable software modules for software failure recovery in multi-process m.
John K. Gee ; David A. Greve ; David S. Hardin ; Allen P. Mass ; Michael H. Masters ; Nick M. Mykris ; Matthew M. Wilding, Real time processor capable of concurrently running multiple independent JAVA machines.
Ducateau Michel (Nogent-Le-Roi FRX) Sers Jean-Marie (Velizy FRX) Pain Isabelle (Jouy En Josas FRX), Real-time management system having coprocessors allocated time slices of different durations to functions and processors.
Russell, Mark E.; Delcheccolo, Michael Joseph; Woodington, Walter Gordon; Van Rees, H. Barteld; Firda, John Michael; Lippert, Delbert, Safe distance algorithm for adaptive cruise control.
Buskens, Richard W.; Liim, Tim T.; Lin, Yow Jian; Mishra, Sunil K.; Siddiqui, Muhammad A.; Suchaczewski, Timothy A., Selecting a processor to run an executable of a distributed software application upon startup of the distributed software application.
Chao, Hui; Poduri, Sameera; Das, Saumitra Mohan; Naguib, Ayman Fawzy; Mohammad Mirzaei, Faraz, Sensor calibration and position estimation based on vanishing point determination.
Wen Cheng P. (Mission Viejo CA) Mendolia Gregory S. (Torrance CA) Siracusa Mario (Fountain Valley CA) Maieron Joseph J. (Kokomo IN) Higdon William D. (Greentown IN) Wooldridge John J. (Manhattan Beac, Single substrate microwave radar transceiver including flip-chip integrated circuits.
Preston,Dan A.; Preston,Joseph; Leyendecker,Robert; Eatherly,Wayne; Proctor,Rod L., Software code for improved in-band signaling for data communications over digital wireless telecommunications networks.
Greiffenhagen,Michael; Ramesh,Visvanathan; Comaniciu,Dorin, Statistical modeling and performance characterization of a real-time dual camera surveillance system.
Preston,Dan A.; Preston,Joseph D.; Leyendecker,Robert; Eatherly,Wayne; Proctor,Rod L.; Smith,Philip R., Synchronizer for use with improved in-band signaling for data communications over digital wireless telecommunications networks.
Ayyagari,Arun; Sheth,Sachin C.; Ganugapati,Krishna; Moore,Timothy M.; Bahl,Pradeep; Peicu,Mihai S.; Teodorescu,Florin, System and method for achieving zero-configuration wireless computing and computing device incorporating same.
Genske, Timothy W.; Swinton, William G.; Vogel, David; Kahn, Philippe R.; Bodnar, Eric O., System and method for dynamic uploading and execution of applications and drivers between devices.
Kyrtsos Christos T. (Peoria IL) Gudat Adam J. (Edelstein IL) Christensen Dana A. (Peoria IL) Friedrich Douglas W. (Pekin IL) Stafford Darrell E. (Dunlap IL), System and method for providing accurate vehicle positioning using spatial bias techniques.
Bambini John S. ; Nichelson Matthew T. ; Lhamon Ruskin T. ; Denbow Jason M., System and method for remote control of an in-vehicle voice recorder and other electrical accessories.
Preston Dan A. ; Preston Joseph D. ; Vroman James, System and method to communicate time stamped, 3-axis geo-position data within telecommunication networks.
Lichtman Moshe ; Enstrom Mark R. ; Lennon Thomas E. ; Lipe Ralph A. ; Santerre Pierre-Yves ; Short Robert T. ; Voth David W., System for configuring devices for a computer system.
Turnbull, Robert R.; Knapp, Robert C.; Walstra, Eric J.; Watson, Alan R.; Poe, G. Bruce; Roberts, John K.; Rumsey, Wayne J., Vehicle rearview mirror assembly incorporating a communication system.
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