A vehicle speed monitor for monitoring the speed of a moving vehicle is provided to the vehicle at an entrance to a road. The vehicle speed monitor records instantaneous accelerations of the vehicle along three axes over time. The vehicle speed monitor may be implemented as a contact or contactless
A vehicle speed monitor for monitoring the speed of a moving vehicle is provided to the vehicle at an entrance to a road. The vehicle speed monitor records instantaneous accelerations of the vehicle along three axes over time. The vehicle speed monitor may be implemented as a contact or contactless integrated circuit (IC) card. The vehicle speed monitor is returned at an exit from the road, and scalar instantaneous speeds of the vehicle are determined from the recorded instantaneous accelerations in the vehicle speed monitor. The scalar instantaneous speeds are compared to one or more speed limits between the entrance and the exit to determine any speed limit violation. The vehicle speed monitor may also function as an electronic toll card where a toll is determined from the entrance and the exit. At the exit, the driver of the vehicle is charged with a fine and a toll, if any.
대표청구항▼
1. A vehicle speed monitor for monitoring speed of a moving vehicle, the vehicle speed monitor comprising: an integrated circuit (IC) card, the IC card comprising: an accelerometer being configured to measure instantaneous accelerations of the vehicle along three axes;a nonvolatile memory;a contact
1. A vehicle speed monitor for monitoring speed of a moving vehicle, the vehicle speed monitor comprising: an integrated circuit (IC) card, the IC card comprising: an accelerometer being configured to measure instantaneous accelerations of the vehicle along three axes;a nonvolatile memory;a contact or contactless interface; anda processor being programmed to record the instantaneous accelerations measured by the accelerometer over time in the nonvolatile memory and to transmit, via the contact or contactless interface, at least one of (1) the recorded instantaneous accelerations and (2) scalar instantaneous speeds over time determined from the recorded instantaneous accelerations. 2. The vehicle speed monitor of claim 1, wherein the IC card further comprises a signal conditioning component configured to reformat the instantaneous accelerations measured by the accelerometer and that provides the reformatted instantaneous accelerations to the processor for recording in the nonvolatile memory. 3. The vehicle speed monitor of claim 1, wherein the processor is programmed to calculate scalar instantaneous accelerations over time from the recorded instantaneous accelerations, to calculate the scalar instantaneous speeds over time from the scalar instantaneous accelerations, and to record the scalar instantaneous speeds in the nonvolatile memory. 4. The vehicle speed monitor of claim 1, wherein the processor is programmed to transmit an ID of an entrance of a road along with the recorded instantaneous accelerations via the contact or contactless interface, the entrance being where the vehicle speed monitor is provided to the vehicle. 5. A system for monitoring speed of a moving vehicle, comprising: a vehicle speed monitor comprising: an integrated circuit (IC) card, the IC card comprising: an accelerometer being configured to measure instantaneous accelerations of the vehicle along three axes;a nonvolatile memory;a contact or contactless interface; anda processor being programmed to record the instantaneous accelerations measured by the accelerometer over time in the nonvolatile memory; anda computer system, comprising: a contact or contactless reader; andan other processor being programmed to: download from the vehicle speed monitor, via the contact or contactless reader, at least one of (1) the recorded instantaneous accelerations and (2) scalar instantaneous speeds over time determined from the recorded instantaneous accelerations; anddetermine if a speed limit has been exceeded from the scalar instantaneous speeds. 6. The system of claim 5, wherein the other processor is programmed to download an ID of an entrance of a road along with the recorded instantaneous accelerations, the entrance being where the vehicle speed monitor is provided to the vehicle. 7. The system of claim 6, wherein the other processor is further programmed to calculate scalar instantaneous accelerations over time from the recorded instantaneous accelerations, and the scalar instantaneous speeds over time from the scalar instantaneous accelerations. 8. The system of claim 7, wherein the other processor is further programmed to calibrate the scalar instantaneous speeds when the scalar instantaneous speeds remain at a low speed over a period of time by setting the low speed to zero. 9. The system of claim 7, wherein the other processor is further programmed to determine locations over time from the scalar instantaneous speeds. 10. The system of claim 7, wherein the other processor is further programmed to determine the speed limit based on the ID of the entrance and an other ID of an exit from the road, the exit being where the vehicle speed monitor is returned from the vehicle. 11. The system of claim 6, wherein the other processor is further programmed to calculate a toll based on the ID of the entrance and an other ID of an exit from the road, the entrance being where the vehicle speed monitor is provided to the vehicle and the exit being where the vehicle speed monitor is returned from the vehicle. 12. The system of claim 5, wherein the processor is programmed to calculate scalar instantaneous accelerations over time from the recorded instantaneous accelerations, and the scalar instantaneous speeds over time from the scalar instantaneous accelerations. 13. The system of claim 5, wherein the accelerometer is a micro-electro-mechanical systems (MEMS) accelerometer. 14. A method for monitoring speed of a moving vehicle, comprising: providing a vehicle speed monitor comprising an integrated circuit (IC) card to the vehicle at an entrance of a road, wherein the vehicle speed monitor measures and records instantaneous accelerations of the vehicle along three axes over time;receiving the vehicle speed monitor at an exit from the road;downloading from vehicle speed monitor, by contact or contactless communication, at least one of (1) the recorded instantaneous accelerations and (2) scalar instantaneous speeds over time determined from the recorded instantaneous accelerations; anddetermining if a speed limit has been exceeded from the scalar instantaneous speeds. 15. The method of claim 14, further comprising: prior to said providing the vehicle speed monitor, recording an ID of the entrance in the vehicle speed monitor; andafter receiving the vehicle speed monitor, calculating the speed limit of the road based on the ID of the entrance and an other ID of the exit. 16. The method of claim 14, further comprising determining scalar instantaneous accelerations over time from the recorded instantaneous accelerations, and determining the scalar instantaneous speeds over time from the scalar instantaneous accelerations. 17. The method of claim 16, further comprising calibrating the scalar instantaneous speeds when the scalar instantaneous speeds remain at a low speed over a period of time by setting the low speed to zero. 18. The method of claim 16, further comprising determining locations over time from the scalar instantaneous speeds. 19. The method of claim 14, further comprising: prior to said providing the vehicle speed monitor, recording an ID of the entrance in the vehicle speed monitor; andafter receiving the vehicle speed monitor, calculating a toll of the vehicle based on the ID of the entrance and an other ID of the exit.
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이 특허에 인용된 특허 (3)
Crocker, Timothy R.; Brandwood, John D; Bishop, Frank M, Information system.
Lopez-Hinojosa, Brennan T.; Lopez, Kermit D., Methods and systems for providing alerts to a driver of a vehicle via condition detection and wireless communications.
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