IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0377351
(2003-02-28)
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발명자
/ 주소 |
- Davenport, David Michael
- Hoctor, Ralph Thomas
- Van Stralen, Nick Andrew
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
12 인용 특허 :
4 |
초록
▼
A system to monitor the integrity of a railway track is provided. The system comprises a mechanical signal source and a correlation detector. The mechanical signal source coupled to the railway track and is configured for generating a mechanical signal pulse train over the railway track. The correla
A system to monitor the integrity of a railway track is provided. The system comprises a mechanical signal source and a correlation detector. The mechanical signal source coupled to the railway track and is configured for generating a mechanical signal pulse train over the railway track. The correlation detector monitors the integrity of the railway track by observing the pulse trains transmitted by the mechanical signal sources. If the railway track is intact, then the pulse train will travel to the correlation detector and afford the opportunity for repeatable detection.
대표청구항
▼
1. A system to monitor the integrity of a railway track, the system comprising:(a) a mechanical signal source coupled to the railway track and configured for generating a mechanical signal pulse train over the railway track, the signal pulse train having a predetermined pulse repetition interval; an
1. A system to monitor the integrity of a railway track, the system comprising:(a) a mechanical signal source coupled to the railway track and configured for generating a mechanical signal pulse train over the railway track, the signal pulse train having a predetermined pulse repetition interval; and (b) a correlation detector comprising: (i) a mechanical signal transducer coupled to the railway track and configured for converting mechanical signals on the railway track to electrical signals, and (ii) a processor coupled to the transducer and configured for processing the electrical signals to detect a presence of temporally correlated signal components, the correlated signal components being correlated with respect to the predetermined pulse repetition interval, wherein the detection is indicative that the transducer received the signal pulse train. 2. The system of claim 1, wherein the processor comprises:a delay block configured for receiving a first signal set, the first signal set comprising the electrical signals, and using the first signal set to create a second signal set, the second signal set comprising a replicate of the first signal set at a predetermined delay, wherein the processor is configured for using the first signal set and second signal set for correlation detection. 3. The system of claim 2 wherein the processor further comprises:a multiplier configured for receiving the first signal set and the second signal set to generate a corresponding multiplicative output signal, an integrator configured for receiving and integrating the multiplicative output signal, and a detection threshold configured for detecting the presence of the temporally correlated signal components by determining whether a peak output level of the integrated multiplicative output signal exceeds a predetermined threshold level. 4. The system of claim 1, wherein the correlation detector is configured for detecting the presence of temporally correlated signal components from a plurality of pulse trains each having a unique respective pulse repetition interval.5. The system of claim 4, wherein the temporally correlated signal components are correlated at multiples of the unique respective pulse repetition interval.6. The system of claim 4, wherein the mechanical signal source comprises a plurality of signal sources each having at least one respective signal pulse train characterized by a unique respective pulse repetition interval.7. The system of claim 4 wherein the mechanical signal source is configured for generating a plurality of mechanical signal pulse trains with a first signal pulse train having a different predetermined pulse repetition interval than a second signal pulse train.8. The system of claim 7, wherein the correlation detector is adapted to differentiate between the first and second signal pulse trains.9. The system of claim 8, wherein the mechanical signal source further comprises a pulse train generator configured to transmit data bits by selecting between the first and second signal pulse trains.10. The system of claim 1, wherein the pulses of the pulse train comprise bursts of acoustic or ultrasonic carrier signals.11. A method to monitor the integrity of a railway track, the method comprising:generating a mechanical signal pulse train over the railway track, the signal pulse train having a predetermined pulse repetition interval; and converting mechanical signals on the railway track to electrical signals, and processing the electrical signals to detect a presence of temporally correlated signal components, the correlated signal components being correlated with respect to the predetermined pulse repetition interval, wherein the detection is indicative of a reception of the signal pulse train. 12. The method of claim 11, wherein the processing comprises:using a first signal set comprising the electrical signals to create a second signal set, the second signal set comprising a replicate of the first signal set at a predetermined delay, wherein the first signal set and second signal set are used for correlation detection. 13. The method of claim 12 wherein the processing further comprises:using the first signal set and the second signal set for generating a corresponding multiplicative output signal, integrating the multiplicative output signal, and detecting the presence of the temporally correlated signal components by determining whether a peak output level of the integrated multiplicative output signal exceeds a predetermined threshold level. 14. The method of claim 11, wherein the processing comprises detecting the presence of temporally correlated signal components from a plurality of pulse trains each having a unique respective pulse repetition interval.15. The method of claim 14, wherein the temporally correlated signal components are correlated at multiples of the unique respective pulse repetition interval.16. The method of claim 14, wherein the generating comprises generating a plurality of signal pulse trains characterized by a unique respective pulse repetition interval.17. The method of claim 14, wherein the generating comprises generating a plurality of mechanical signal pulse trains with a first signal pulse train having a different predetermined pulse repetition interval than a second signal pulse train.18. The method of claim 17, wherein the processing further comprises differentiating between the first and second signal pulse trains.19. The method of claim 18, wherein the generating further comprises a transmitting data bits by selecting between the first and second signal pulse trains.20. The method of claim 11, wherein the pulses of the pulse train comprise bursts of acoustic or ultrasonic carrier signals.21. A system to monitor the integrity of a railway track, the system comprising:(a) a plurality of mechanical signal sources coupled to the railway track and configured for generating a plurality of mechanical signal pulse trains over the railway track, the signal pulse trains having respective predetermined pulse repetition intervals; and (b) a correlation detector comprising: (i) a mechanical signal transducer coupled to the railway track and configured for converting mechanical signals on the railway track to electrical signals, and (ii) a processor coupled to the transducer and configured for processing the electrical signals to detect a presence of temporally correlated signal components, the correlated signal components being correlated with respect to the predetermined pulse repetition intervals, wherein the detection of a temporally correlated signal component is indicative that the transducer received a respective signal pulse train, wherein the processor comprises a plurality of delay blocks, each delay block configured for receiving a first signal set comprising the electrical signals, and using the first signal set to create a respective second signal set, the second signal set comprising a replicate of the first signal set at a respective predetermined delay, wherein the processor is configured for using the first signal set and the second signal sets for correlation detection. 22. The system of claim 21, wherein the processor further comprises:a plurality of multipliers, each configured for receiving and multiplying the first signal sets and a respective one of the second signal sets and generating a respective multiplicative output signal, a plurality of integrators, each configured for receiving and integrating a respective multiplicative output signal, and a plurality of detection thresholds, each configured for detecting the presence of a respective temporally correlated signal component by determining whether a peak output level of a respective integrated multiplicative output signals exceeds a respective predetermined threshold level. 23. The system of claim 21, wherein each one of the plurality of mechanical signal sources is configured for generating a plurality of mechanical signal pulse trains with a first signal pulse train having a different predetermined pulse repetition interval than a second signal pulse train.24. The system of claim 23, wherein the correlation detector is adapted to differentiate between the first and second signal pulse trains.25. The system of claim 23, wherein each one of the plurality of mechanical signal sources further comprises a pulse train generator configured to transmit data bits by selecting between the first and second signal pulse trains.26. The system of claim 21, wherein the pulses of the pulse train comprise bursts acoustic or ultrasonic carrier signals.27. A correlation detector for monitoring the integrity of a railway track, the detector comprising:(a) a mechanical signal transducer coupled to the railway track and configured for converting mechanical signals on the railway track to electrical signals, and (b) a processor coupled to the transducer and configured for processing the electrical signals to detect a presence of temporally correlated signal components, the correlated signal components being correlated with respect to a predetermined pulse repetition interval, wherein the detection is indicative that the transducer received a mechanical signal pulse train having a predetermined pulse repetition interval. 28. The correlation detector of claim 27, wherein the processor comprises:a delay block configured for receiving a first signal set, the first signal set comprising the electrical signals, and using the first signal set to create a second signal set, the second signal set comprising a replicate of the first signal set at a predetermined delay, wherein the processor is configured for using the first signal set and second signal set for correlation detection, a multiplier configured for receiving the first signal set and the second signal set to generate a corresponding multiplicative output signal, an integrator configured for receiving and integrating the multiplicative output signal, and a detection threshold configured for detecting the presence of the temporally correlated signal components by determining whether a peak output level of the integrated multiplicative output signal exceeds a predetermined threshold level.
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