IPC분류정보
| 국가/구분 |
United States(US) Patent
등록
|
| 국제특허분류(IPC7판) |
|
| 출원번호 |
US-0176758
(2005-07-07)
|
| 등록번호 |
US-7385525
(2008-06-10)
|
|
발명자
/ 주소 |
- Ho,Thua Van
- Tong,Roger
- Tang,Wal Cheung
- Terrier,Daniel
- Capper,Martin
|
| 출원인 / 주소 |
- Mark IV Industries Corporation
|
| 대리인 / 주소 |
Hanley, Flight & Zimmerman
|
| 인용정보 |
피인용 횟수 :
10 인용 특허 :
44 |
초록
▼
An electronic toll collection system with dynamically adjusted timing for operation of one or more subsystems. The timing is dynamically adjusted based upon the prevailing traffic speed for the roadway. The roadway traffic speed is determined based upon direct measurements of traffic speed by extern
An electronic toll collection system with dynamically adjusted timing for operation of one or more subsystems. The timing is dynamically adjusted based upon the prevailing traffic speed for the roadway. The roadway traffic speed is determined based upon direct measurements of traffic speed by external equipment or based upon a variable correlated with traffic speed. The variable may include the average number of handshakes per transponder over an estimation period. The subsystem may include a vehicle position determination system, an enforcement system, a loop detection system, or other such subsystems.
대표청구항
▼
What is claimed is: 1. A vehicle position determination system for determining a position of a moving vehicle having a transponder in a multi-lane roadway, comprising: two or more antennas having partially overlapped coverage areas, each for transmitting an interrogation signal and receiving a resp
What is claimed is: 1. A vehicle position determination system for determining a position of a moving vehicle having a transponder in a multi-lane roadway, comprising: two or more antennas having partially overlapped coverage areas, each for transmitting an interrogation signal and receiving a response signal from the transponder; a reader for receiving said response signals from said antennas, said reader including a position determination module for determining the position of the moving vehicle based upon said response signals received by said two or more antennas, wherein said determination is made on expiry of a time period, and a dynamic timing module for determining a current traffic speed associated with the multi-lane roadway and for setting said time period based upon said current traffic speed, wherein said current traffic speed comprises a variable correlated to traffic speed, said dynamic timing module measures said variable correlated to traffic speed, and said variable correlated to traffic speed comprises an average number of response signals per transponder while in said coverage areas. 2. The vehicle position determination system claimed in claim 1, wherein said dynamic timing module includes a handshake counting module for counting response signals from each transponder entering said coverage areas over an estimation period and a time period selection module for calculating said average number of response signals per transponder and selecting said time period. 3. The vehicle position determination system claimed in claim 2, wherein said time period selection module calculates said average number of response signals per transponder on a per antenna basis. 4. The vehicle position determination system claimed in claim 3, wherein said antennas include at least two lane-centred antennas and at least one between-lane antenna, and wherein said time period selection module calculates said average with respect to said lane-centred antennas. 5. The vehicle position determination system claimed in claim 3, wherein said reader further includes a component for counting transactions per antenna over said estimation period, and wherein said time period selection module selects said time period based upon said average number of response signals per transponder calculated with respect to an antenna associated with the highest number of transactions. 6. The vehicle position determination system claimed in claim 1, wherein said dynamic timing module sets said time period based upon said average number of response signals. 7. The vehicle position determination system claimed in claim 6, wherein said dynamic timing module sets said calculated time period as a current time period for use by said position determination module if said calculated time period differs from a previous time period by more than a threshold amount. 8. The vehicle position determination system claimed in claim 1, wherein dynamic timing module includes an input for receiving measured current traffic speed data from an external source. 9. A method of determining a position of a moving vehicle having a transponder in a multi-lane roadway, the method comprising: measuring a current traffic speed associated with the multi-lane roadway; setting a time period based upon said current traffic speed; exchanging communications with the transponder through two or more antennas having partially overlapped coverage areas, wherein exchanging communications includes transmitting an interrogation signal and receiving a response signal from the transponder; and determining the position of the moving vehicle based upon said response signals received by said two or more antennas, wherein said determination is made on expiry of the time period, wherein said current traffic speed comprises a variable correlated to traffic speed, measuring the current traffic speed comprises measuring said variable correlated to traffic speed, and said variable correlated to traffic speed comprises an average number of response signals per transponder while in said coverage areas. 10. The method claimed in claim 9, wherein measuring the current traffic speed includes counting response signals from each transponder entering said coverage areas over an estimation period and determining said average number of response signals per transponder. 11. The method claimed in claim 10, wherein determining said average number of response signals includes calculating said average number of response signals per transponder on a per antenna basis. 12. The method claimed in claim 11, wherein said antennas include at least two lane-centred antennas and at least one between-lane antenna, and wherein calculating said average number of responses is performed only with respect to said lane-centred antennas. 13. The method claimed in claim 11, further including counting transactions per antenna over said estimation period, and wherein setting said time period is based upon said average number of response signals per transponder calculated with respect to an antenna associated with the highest number of transactions. 14. The method claimed in claim 9, wherein setting said time period includes calculating said time period based upon said average number of response signals. 15. The method claimed in claim 14, wherein setting said time period further includes setting said calculated time period as a current time period for use in determining if said calculated time period differs from a previous time period by more than a threshold amount. 16. The method claimed in claim 9, wherein measuring said current traffic speed includes receiving measured current traffic speed data from an external source. 17. An electronic toll collection system for conducting transactions with a moving vehicle having a transponder travelling on a roadway, the electronic toll collection system comprising: at least one subsystem having a trigger component for triggering operation of the subsystem based upon a time period; and a dynamic timing module for determining a current traffic speed associated with the roadway and for setting said time period based upon said current traffic speed, wherein said current traffic speed comprises a variable correlated to traffic speed, said dynamic timing module measures said variable correlated to traffic speed, and said variable correlated to traffic speed comprises an average number of response signals per transponder while in an antenna coverage area. 18. The electronic toll collection system claimed in claim 17, wherein said subsystem comprises a vehicle position determination system including two or more antennas having partially overlapped coverage areas, each for transmitting an interrogation signal and receiving a response signal from the transponder; and a reader for receiving said response signals from said antennas, said reader including a position determination module for determining the position of the moving vehicle based upon said response signals received by said two or more antennas, wherein said determination is made on expiry of said time period. 19. The electronic toll collection system claimed in claim 17, wherein said dynamic timing module includes a handshake counting module for counting response signals from each transponder entering said coverage area over an estimation period and a time period selection module for calculating said average number of response signals per transponder and selecting said time period. 20. The electronic toll collection system claimed in claim 17, wherein dynamic timing module includes an input for receiving measured current traffic speed data from an external source. 21. The electronic toll collection system claimed in claim 17, wherein said subsystem comprises a loop detection system having at least one in-ground loop antenna and a loop detector for counting the number of axles on the moving vehicle and determining a vehicle class, and wherein said determination is based, at least in part, upon whether said time period elapses between the detection of axles. 22. The electronic toll collection system claimed in claim 17, wherein said subsystem comprises an enforcement system including at least one camera for capturing an image of the moving vehicle, and wherein said image is captured on expiry of said time period. 23. A method of dynamically adjusting timing within an electronic toll collection system for conducting transactions with a moving vehicle having a transponder travelling in a roadway, the method comprising: measuring a current traffic speed associated with the roadway, wherein said current traffic speed comprises a variable correlated to traffic speed, measuring said current traffic speed comprises measuring said variable correlated to traffic speed, and said variable correlated to traffic speed comprises an average number of response signals per transponder while in a coverage area; setting a time period based upon said current traffic speed, wherein setting said time period includes calculating said time period based upon said average number of response signals; and triggering operation of a subsystem of the electronic toll collection system upon expiry of said time period. 24. The method claimed in claim 23, wherein said subsystem includes a vehicle position determination system, wherein said method further includes exchanging communications with the transponder through two or more antennas having partially overlapped coverage areas, wherein exchanging communications includes transmitting an interrogation signal and receiving a response signal from the transponder, and wherein triggering operation of the subsystem includes determining the position of the moving vehicle based upon said response signals received by said two or more antennas, wherein said determination is made on expiry of the time period. 25. The method claimed in claim 23, wherein measuring said current traffic speed includes receiving measured current traffic speed data from an external source. 26. The method claimed in claim 23, wherein said subsystem includes an enforcement camera for capturing an image of the moving vehicle, and wherein triggering operation of said subsystem includes capturing said image with said enforcement camera. 27. The method claimed in claim 23, wherein said subsystem includes a loop detection system, wherein the method includes counting the number of axles on the moving vehicle and determining a vehicle class based at least in part upon whether said time period expires between detection of axles.
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