최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0246405 (2011-09-27) |
등록번호 | US-9336043 (2016-05-10) |
발명자 / 주소 |
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출원인 / 주소 |
|
인용정보 | 피인용 횟수 : 0 인용 특허 : 321 |
A vehicle system comprises multiple processors and a communication system adapted to run real-time vehicle applications. The system adds new devices, identifies data generated by the new device and identifies another device that can input or output the data. The vehicle system also includes a dynami
A vehicle system comprises multiple processors and a communication system adapted to run real-time vehicle applications. The system adds new devices, identifies data generated by the new device and identifies another device that can input or output the data. The vehicle system also includes a dynamic configuration system configured to operate on the multiple processors and store critical information about the applications running on the multiple processors. The configuration manager automatically detects an application failure and initiates a reconfiguration process. The configuration manager then downloads from memory the previously stored critical data associated with the failed application and initiates a reboot operation for the failed application.
1. An application management system used in a vehicle, comprising: multiple processors located on-board the vehicle and adapted to run real-time vehicle applications;a communication system configured to couple the multiple processors together over multiple communication links;a device manager for au
1. An application management system used in a vehicle, comprising: multiple processors located on-board the vehicle and adapted to run real-time vehicle applications;a communication system configured to couple the multiple processors together over multiple communication links;a device manager for automatically detecting and adding at least one new device to the on-board multiprocessor system, wherein the at least one new device is at least one of portable and a cell phone;a data manager that identifies data generated by the new device and identifies at least one other device in the multiprocessor system that can display at least some of the identified data;a dynamic configuration system run on at least one of the multiple on-board processors, comprising: a configuration manager configured to: operate on the at least one of the multiple processors,store critical information about the application running on the multiple processors,automatically detect application failure,responsive to detecting application failure, initiate a reconfiguration process,download from memory the stored critical data associated with the failed application,initiate a reboot operation for the failed application; anda priority manager for determining a priority value of a message, wherein the priority value determines how messages are processed in at least one of the multiple on-board processors and the new device, responsive to determining a priority value for the message, determine which messages are allowed to be at least one of received and transmitted by the new device, and which data and messages are allowed to be input or output by the multiprocessor system. 2. The application management system of claim 1 wherein the vehicle applications include one or more of the following: braking;audio control;video control;sensor monitoring;display control;security monitoring;temperature control;lighting control; andairbag monitoring. 3. The application management system of claim 1 wherein the communication system includes support for at least one of IEEE 802.11 link, a Bluetooth link, a hard-wired link, a satcom link, and a cellular link. 4. The application management system of claim 1, wherein the configuration manager is further configured to: monitor the vehicle applications running on the multiple processors;identify a failure of a high priority one of the vehicle applications operating on a first one of the multiple processors;identify a lower priority one of the vehicle applications operating on a second one of the multiple processors; andreconfigure the multiple processors to run the high priority one of the vehicle applications on the second one of the multiple processors. 5. The application management system of claim 1 wherein the configuration manager is further configured to: store a copy of a high priority one of the vehicle applications in a memory;identify a failure of the high priority one of the vehicle applications on a first one of the multiple processors;identify a second one of the multiple processors currently running another one of the vehicle applications;download the copy of the high priority one of the vehicle applications from the memory to the second one of the multiple processors in response to identifying the failure of the high priority one of the vehicle applications on the first one of the multiple processors; andrun the downloaded copy of the high priority one of the vehicle applications on the second one of the multiple processors. 6. The application management system of claim 1 wherein: the data manager is further configured to:identify a failure of one of the vehicle applications running on a first one of the multiple processors;store critical data generated by the vehicle application identified as failed; andconfigure a second one of the multiple processors to run the vehicle application; anddownload and process the critical data with the vehicle application running on the second one of the multiple processors in response to the failure of the identified one of the vehicle applications on the first one of the multiple processors. 7. The application management system of claim 1 further comprising a user interface configured to: indicate a failure associated with one of the vehicle applications running on one of the multiple processors;indicate other vehicle applications running on other ones of the multiple processors that can be replaced by the failed one of the vehicle applications. 8. The application management system of claim 1 wherein the data manager is further configured to: identify a type of data transferred by the new hardware device;identify an application configured to process the type of data; anddisplay the application on a user interface. 9. A method for managing applications used in a vehicle, comprising: adapting multiple processors located on-board the vehicle to run real-time vehicle applications;configuring a communication system to couple the multiple processors together over multiple communication links;configuring a device manager to automatically detect and add at least one new device to the on-board multiprocessor system, wherein the at least one new device is at least one of portable and a cell phone;configuring a data manager to identify data generated by the new device and identify at least one other device in the multiprocessor system that can display at least some of the identified data;running a dynamic configuration system on at least one of the multiple on-board processors, comprising: a configuration manager configured to: operate on the at least one of the multiple processors,store critical information about the application running on the multiple processors,automatically detect application failure,responsive to detecting application failure, initiate a reconfiguration process,download from memory the stored critical data associated with the failed application,initiate a reboot operation for the failed application; anda priority manager for determining a priority value of a message, wherein the priority value determines how messages are processed in at least one of the multiple on-board processors and the new device, responsive to determining a priority value for the message, determine which messages are allowed to be at least one of received and transmitted by the new device, and which data and messages are allowed to be input or output by the multiprocessor system. 10. The method of claim 9 wherein the vehicle applications include one or more of the following: braking;audio control;video control;sensor monitoring;display control;security monitoring;temperature control;lighting control; andairbag monitoring. 11. The method of claim 9 wherein the communication system includes support for at least one of IEEE 802.11 link, a Bluetooth link, a hard-wired link, a satcom link, and a cellular link. 12. The method of claim 9, wherein the configuration manager is further configured to: monitor the vehicle applications running on the multiple processors;identify a failure of a high priority one of the vehicle applications operating on a first one of the multiple processors;identify a lower priority one of the vehicle applications operating on a second one of the multiple processors; andreconfigure the multiple processors to run the high priority one of the vehicle applications on the second one of the multiple processors. 13. The method of claim 9 wherein the configuration manager is further configured to: store a copy of a high priority one of the vehicle applications in a memory;identify a failure of the high priority one of the vehicle applications on a first one of the multiple processors;identify a second one of the multiple processors currently running another one of the vehicle applications;download the copy of the high priority one of the vehicle applications from the memory to the second one of the multiple processors in response to identifying the failure of the high priority one of the vehicle applications on the first one of the multiple processors; andrun the downloaded copy of the high priority one of the vehicle applications on the second one of the multiple processors. 14. The method of claim 9 wherein: the data manager is further configured to:identify a failure of one of the vehicle applications running on a first one of the multiple processors;store critical data generated by the vehicle application identified as failed; andconfigure a second one of the multiple processors to run the vehicle application; anddownload and process the critical data with the vehicle application running on the second one of the multiple processors in response to the failure of the identified one of the vehicle applications on the first one of the multiple processors. 15. The method of claim 9 further comprising a user interface configured to: indicate a failure associated with one of the vehicle applications running on one of the multiple processors;indicate other vehicle applications running on other ones of the multiple processors that can be replaced by the failed one of the vehicle applications. 16. The method of claim 9 wherein the data manager is further configured to: identify a type of data transferred by the new hardware device;identify an application configured to process the type of data; anddisplay the application on a user interface.
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