Method and apparatus for information transfer in vehicle service systems
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01M-017/013
G01M-017/007
G06F-019/00
출원번호
US-0075150
(2005-03-08)
등록번호
US-7359775
(2008-04-15)
발명자
/ 주소
Strege,Timothy A.
Voeller,David A.
출원인 / 주소
Hunter Engineering Company
대리인 / 주소
Polster, Lieder, Woodruff & Lucchesi, L.C.
인용정보
피인용 횟수 :
13인용 특허 :
40
초록▼
A vehicle service system having a vehicle service computer which is configured for communication with at least one on-board vehicle computer of a vehicle undergoing a vehicle service procedure via a vehicle fault tolerant communication bus, to retrieve or access information stored in a memory associ
A vehicle service system having a vehicle service computer which is configured for communication with at least one on-board vehicle computer of a vehicle undergoing a vehicle service procedure via a vehicle fault tolerant communication bus, to retrieve or access information stored in a memory associated with the vehicle computer, to modify or store information in the vehicle computer associated memory, or to enable vehicle service system control of at least one vehicle component.
대표청구항▼
The invention claimed is: 1. An improved vehicle wheel alignment system which is external to a vehicle undergoing service, the system having a computing device, an associated display, and at least one vehicle wheel alignment sensor configured for communicating wheel alignment data to the computing
The invention claimed is: 1. An improved vehicle wheel alignment system which is external to a vehicle undergoing service, the system having a computing device, an associated display, and at least one vehicle wheel alignment sensor configured for communicating wheel alignment data to the computing device for alignment angle processing by the computing device, said improvement comprising: a communication means for operatively coupling the computing device of the external vehicle wheel alignment system to an internal communication bus integrated into the vehicle undergoing service to enable a bi-directional exchange of data between the computing device and at least one internal vehicle component which is operatively coupled to said vehicle internal communication bus; and wherein the computing device of the external vehicle wheel alignment system is configured with a software application to direct an operation of said at least one vehicle component through said vehicle internal communication bus. 2. The improved vehicle wheel alignment system of claim 1 wherein said communication means is configured for operatively coupling said computing device to a FlexRay internal communication bus of an automotive vehicle. 3. The improved vehicle wheel alignment system of claim 1 wherein said communication means is configured for operatively coupling said computing device to a TTCAN internal communication bus of an automotive vehicle. 4. The improved vehicle wheel alignment system of claim 1 wherein said communication means is configured for operatively coupling said computing device to a TTP internal communication bus of an automotive vehicle. 5. The improved vehicle wheel alignment system of claim 1 wherein the computing device is further configured with said software application to control said at least one vehicle component through said communication means. 6. The improved vehicle wheel alignment system of claim 1 wherein the computing device is further configured with a software application to set at least one operating parameter for at least one vehicle component through said communication means. 7. The improved vehicle wheel alignment system of claim 1 wherein said communication means includes at least one wireless communications transceiver configured to establish a wireless communications link with at least one additional wireless communications transceiver operatively coupled to said vehicle internal communication bus. 8. The improved vehicle wheel alignment system of claim 1 wherein said computing device is configured to utilize said vehicle internal communication bus to: selectively receive data from at least one vehicle component, to selectively store updated data in a memory associated with at least one vehicle component, and to selectively control an operation of at least one vehicle component. 9. An improved vehicle wheel alignment system which is external to a vehicle undergoing service, the system having a computing device, an associated display, and at least one vehicle wheel alignment sensor configured for communicating wheel alignment data to the computing device, said improvement comprising: a communication means for operatively coupling the computing device to an internal communication bus of the vehicle undergoing service to enable an exchange of data between the computing device and at least one vehicle component operatively coupled to said vehicle communication bus; and wherein the computing device is further configured to exchange AutoSAR-standard data with at least one vehicle component via said communications means. 10. The improved vehicle wheel alignment system of claim 9 wherein said computing device is further configured with at least one AutoSAR software interface for communicating with at least one vehicle component coupled to said vehicle communication bus. 11. The improved vehicle wheel alignment system of claim 9 wherein said communication means includes an electronic control module operatively coupled to the computing device and operatively coupled to said vehicle communication bus, said electronic control module configured to enable an exchange of data between the computing device and at least one vehicle component operatively coupled to said vehicle communication bus. 12. The improved vehicle wheel alignment system of claim 11 wherein said electronic control module is further configured with at least one AutoSAR software interface. 13. A method for transferring during a vehicle service procedure, information between a vehicle service system which is external to, and independent from, a vehicle undergoing service, and at least one electronic component of the vehicle operatively coupled to an in-vehicle communications network comprising: establishing, during the vehicle service procedure, a bi-directional communications link directly between said vehicle service system and said in-vehicle communications bus operatively coupling a plurality of vehicle components for communication there between; identifying at the external vehicle service system, said at least one electronic vehicle component operatively coupled to communicate over said in-vehicle communications bus; and transferring, over said in-vehicle communications bus, information associated with the vehicle service procedure between said at least one electronic component and the external vehicle service system. 14. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein the step of establishing a bi-directional communications link includes establishing a wireless communications link between said vehicle service system and said in-vehicle communications bus. 15. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said step of establishing a bi-directional communications link further includes operatively coupling said vehicle service system to an access point associated with said in-vehicle communications bus. 16. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said information includes at least one command to direct an operation of said electronic component. 17. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said information includes at least one data value acquired by said electronic component. 18. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said electronic component is a vehicle steering system control unit. 19. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said electronic component is a vehicle brake system control unit. 20. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said electronic component is a vehicle stability system control unit. 21. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said electronic component is a tire pressure monitoring system module. 22. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said electronic component is a sensor operatively coupled to measure a parameter associated with the vehicle. 23. The method of claim 13 for transferring information between a vehicle service system and at least one electronic component of a vehicle wherein said vehicle service system is a vehicle wheel alignment system. 24. A method for transferring information between a vehicle service system which is external to a vehicle undergoing a service procedure and at least one electronic component of the vehicle which is operatively coupled to an in-vehicle communications bus comprising: establishing a communications link directly between the external vehicle service system and the in-vehicle communications bus; identifying said at least one electronic component on the in-vehicle communications bus; transferring, on said in-vehicle communications bus, information between said at least one electronic component and the external vehicle service system; and further including the step of formatting said information to an AutoSAR interface standard prior to transferring said information between said at least one electronic component and the external vehicle service system. 25. An improved vehicle service system which is external to a vehicle, the vehicle service system having a computing device configured with at least one vehicle service software application, the improvement comprising: a bi-directional communication interface operatively coupled to the computing device, said communication interface configured to operatively couple the computing device to an internal communication bus integrated into a vehicle; and wherein the computing device is further configured with at least one software application to communicate over said vehicle internal communication bus directly with at least one component of the vehicle coupled to said internal communication bus through said bi-directional communication interface. 26. The improved vehicle service system of claim 25 wherein said computing device is configured to receive vehicle wheel alignment data from a vehicle wheel alignment sensor; and wherein said computing device is configured with at least one vehicle wheel alignment software application. 27. A method for communicating between a vehicle service system external to a vehicle and at least one internal component of a vehicle operatively coupled to a vehicle internal communication bus, comprising; establishing a direct bi-directional communication link between the vehicle service system and the vehicle internal communication bus; and transferring data between the vehicle service system and the at least one vehicle component over said vehicle internal communication bus utilizing said established bi-directional communication link. 28. The method of claim 27 wherein said vehicle service system comprises one of a vehicle wheel alignment system, a vehicle wheel balancing system, or a vehicle tire changing system. 29. An improved vehicle service device which is external to a vehicle, the vehicle service system having a computing device configured with at least one vehicle service software application, the improvement comprising: a communication means for operatively coupling the computing device directly with a vehicle internal communication bus on a vehicle undergoing service; and wherein the computing device is further configured with a software interface adapted to facilitate, through said communication means, bi-directional exchange of data with at least one component of a vehicle coupled to a vehicle internal communication bus utilizing a communication format which is independent of a specific hardware configuration of said vehicle component. 30. The improved vehicle service system of claim 29 wherein said computing device is configured to receive vehicle wheel alignment data from a vehicle wheel alignment sensor; and wherein said computing device is configured with at least one vehicle wheel alignment software application.
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이 특허에 인용된 특허 (40)
January Daniel B., Apparatus and method for determining vehicle wheel alignment measurements from three dimensional wheel positions and ori.
Rogers Steven W. ; Coburn ; II David R. ; Kling ; III Michael J. ; Craig Jeffery G., Computerized automotive service equipment using multipoint serial link data transmission protocols.
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McClenahan James W. (Florissant MO) Burns ; Jr. Leigh R. (Troy IL) Stieff Michael T. (Wentzville MO) January Daniel B. (St. Peters MO), Sensor for vehicle alignment system and apparatus using same.
Steven W Rogers ; George M. Gill ; Jean de Belleuille ; Michael J. Kling, III ; Michael L. Baird, System and method for distributed computer automotive service equipment.
James L. Richards ; Larry W. Fullerton ; Donald A. Kelly ; David C. Meigs ; Timothy T. Payment ; James S. Finn ; William J. Tucker ; William D. Welch, Jr., System and method for using impulse radio technology to track and monitor vehicles.
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H. Brock Kolls, Transacting e-commerce and conducting e-business related to identifying and procuring automotive service and vehicle replacement parts.
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Titsworth Raymond (Conway AR) Lipe J. Tom (Little Rock AR) Dale James L. (Conway AR) Monroe Hanford D. (Conway AR) Hill Jerry M. (North Little Rock AR), Vehicle wheel alignment apparatus and method.
Titsworth Raymond (Conway AR) Lipe J. Tom (Little Rock AR) Dale James L. (Conway AR) Monroe Hanford D. (Conway AR) Hill Jerry M. (North Little Rock AR), Vehicle wheel alignment apparatus and method.
Enders, Thorsten; Fuehrer, Thomas; Hugel, Robert; Schirmer, Juergen; Kraft, Dieter; Stiegler, Frank, Method and communications system for transmitting information in a motor vehicle.
Vian, John L.; Vavrina, Matthew A.; How, Jonathan P.; Redding, Joshua; Dydek, Zachary; Bethke, Brett, Vehicle capability monitoring and adaptation system and method therefor.
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