Train detection

US 9,026,283 B2
Filed: 05/30/2011
Issued: 05/05/2015
Est. Priority Date: 05/31/2010
Status: Active Grant

First Claim

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1. A train detection system for detecting trains and determining the occupancy of a railroad track detection zone, the detection zone comprising one or more railroad track segments and a plurality of access points constituting all points of train entry into and exit from the railroad track detection zone, the system comprising:

a zone processor;

a plurality of sensor devices fixed adjacent to the track at each access point, wherein each sensor device comprises;

a power supply;

one or more anisotropic magnetoresistive (AMR) sensor elements powered by the power supply and configured to generate analog waveform data representative of detected trains entering or exiting the detection zone on the track, the waveform data further being representative of the effect of each detected train on the Earth'"'"'s magnetic field;

a sensor device processor powered by the power supply and coupled to each sensor element, wherein the sensor device processor is configured to process analog waveform data generated by each sensor element and to generate time-stamped digital train event data comprising unique train identification signature (UTIS) data, the UTIS data comprising peak amplitude values in a sequence representing the sequence of the peak amplitude values in the time-stamped digital train event data;

spread spectrum wireless communication apparatus coupled to the sensor device processor, wherein the communication apparatus is configured to transmit time-stamped digital train event data to the zone processor and is further configured to maintain a vital communications link between the sensor device and the zone processor;

wherein the zone processor is configured to perform matching evaluation of the UTIS data transmitted to the zone processor by the plurality of sensor devices to generate an output state indicative of whether the railroad track detection zone is occupied or unoccupied by a train by determining whether the detection zone is clear of any whole or partial train previously detected entering the detection zone.

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Abstract

Occupancy of a railroad track detection zone by one or more trains is determined using sensor devices located at gateways into and out of the track detection zone. Each sensor device has a sensing range that includes a portion of the railroad track in the detection zone and the sensor device generates data used to uniquely identify each train passing through a gateway and thus the sensing range of one or more sensor devices. Data from the detection zone'"'"'s sensor device array is collected and evaluated to monitor or track the status of any detected trains and the occupancy of the zone. In some embodiments, the sensor devices utilize anisotropic magnetoresistive sensor elements whose analog waveform data is the basis of magnetic flux peak detection and mapping to generate unique train identification signature data that is transmitted to and evaluated by a detection zone processor, which in some cases can control crossing signals and/or other control apparatus related to the railroad track detection zone. The unique train identification signature data can include digitized amplitude peaks and their sequence for each train, based on that train'"'"'s generated analog waveform data.

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20 Claims

1. A train detection system for detecting trains and determining the occupancy of a railroad track detection zone, the detection zone comprising one or more railroad track segments and a plurality of access points constituting all points of train entry into and exit from the railroad track detection zone, the system comprising:
- a zone processor;
  
  a plurality of sensor devices fixed adjacent to the track at each access point, wherein each sensor device comprises;
  
  a power supply;
  
  one or more anisotropic magnetoresistive (AMR) sensor elements powered by the power supply and configured to generate analog waveform data representative of detected trains entering or exiting the detection zone on the track, the waveform data further being representative of the effect of each detected train on the Earth'"'"'s magnetic field;
  
  a sensor device processor powered by the power supply and coupled to each sensor element, wherein the sensor device processor is configured to process analog waveform data generated by each sensor element and to generate time-stamped digital train event data comprising unique train identification signature (UTIS) data, the UTIS data comprising peak amplitude values in a sequence representing the sequence of the peak amplitude values in the time-stamped digital train event data;
  
  spread spectrum wireless communication apparatus coupled to the sensor device processor, wherein the communication apparatus is configured to transmit time-stamped digital train event data to the zone processor and is further configured to maintain a vital communications link between the sensor device and the zone processor;
  
  wherein the zone processor is configured to perform matching evaluation of the UTIS data transmitted to the zone processor by the plurality of sensor devices to generate an output state indicative of whether the railroad track detection zone is occupied or unoccupied by a train by determining whether the detection zone is clear of any whole or partial train previously detected entering the detection zone.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The system of claim 1 wherein analog waveform data generated by the one or more AMR sensor elements is multi-dimensional analog waveform data.
  - 3. The system of claim 2 further comprising a warning signal coupled to the zone processor to signal occupancy of the detection zone when the zone processor output state indicates the presence of a whole or partial train in the detection zone.
  - 4. The system of claim 3 wherein the zone processor comprises a vital processing device comprising two independent, identical processing units that operate so that the zone processor output state indicates an occupied detection zone when any zone processor component fails to or is unable perform an intended function and so that power source and return connections to the two independent, identical processing units are isolated and separate;
    - andwherein the sensor devices are paired to provide independent and redundant data collection and evaluation that satisfy closed circuit and fail-safe principles.
  - 5. The system of claim 4 wherein the sensor device power supply is at least one of the following:
    - self-sustaining;
      
      self-recharging;
      
      an energy harvesting apparatus.
  - 6. The system of claim 5 wherein the sensor device further comprises one or more set/reset controls to realign magnetic domains of one or more sensor elements.
  - 7. The system of claim 6 wherein the UTIS data is determined using a peak detection threshold empirically obtained from a noise level in the waveform data.

8. A method for determining the occupancy status of a railroad track detection zone by monitoring movement of trains into and out of the detection zone, wherein the detection zone comprises a railroad track section having a plurality of access points through which trains pass into and out of the detection zone, further wherein the detection zone comprises a zone processor communicatively coupled by a wireless communication system to a plurality of gateway sensor devices fixed adjacent to each detection zone access point, wherein each sensor device has a sensing range that includes a portion of the railroad track at the adjacent access point and further wherein each sensor device comprises one or more anisotropic magnetoresistive (AMR) sensor elements configured to generate analog waveform data representing magnetic characteristics of a train within the sensor device sensing range, the method comprising:
- each sensor device AMR sensor element generating analog waveform data representing magnetic characteristics of a train within the sensor device sensing range;
  
  converting the generated analog waveform data to digital waveform data;
  
  each sensor device processing the digital waveform data to generate time-stamped unique train identification signature (UTIS) data, wherein processing the digital waveform data comprises;
  
  detecting amplitude peaks in the digital waveform data;
  
  constructing a set, vector or matrix of amplitude peak magnitude values in a sequence representing the sequence of the amplitude peak values in the digital waveform data;
  
  each sensor device transmitting UTIS data to a zone processor;
  
  the zone processor performing matching evaluation of UTIS data transmitted by the sensor devices to determine whether the detection zone is unoccupied or occupied by a whole or partial train;
  
  wherein all sensor devices and the zone processor maintain a vital communications protocol, and further wherein the combined sensing ranges of all sensor devices does not cover the entire length of railroad track in the detection zone.
- View Dependent Claims (9, 10, 11, 12)
- - 9. The method of claim 8 wherein the zone processor controls a railroad crossing signal or a warning signal based on the determination of whether the detection zone is unoccupied or occupied by a train.
  - 10. The method of claim 9 wherein converting generated analog waveform data is performed by an amplifier and an analog-to-digital converter (ADC) coupled to one or more sensor elements in each sensor device.
  - 11. The method of claim 10 wherein detecting peak amplitudes in the digital waveform data uses a peak detection threshold empirically obtained from a noise level in the waveform data.
  - 12. The method of claim 11 wherein the zone processor processes UTIS data transmitted by the sensor devices using two independent, identical processing units that operate so that the zone processor output state indicates an occupied detection zone when any zone processor component fails to or is unable perform an intended function and so that power source and return connections to the two independent, identical processing units are isolated and separate;
    - andwherein the sensor devices are paired to provide independent and redundant data collection and evaluation that satisfy closed circuit and fail-safe principles.

13. A train detection system for detecting a train in a railroad track train detection zone comprising three railroad track detection sub-zones comprising a railroad track passing through a first approach detection sub-zone, an island detection sub-zone, and a second approach detection sub-zone, the system comprising:
- a plurality of gateways comprising a first gateway defined by a first end of the railroad track detection zone and a collocated end of the first approach detection sub-zone, a second gateway defined by the interface between the first approach detection sub-zone and the island detection sub-zone, a third gateway defined by the interface between the island detection sub-zone and the second approach detection sub-zone, and a fourth gateway defined by a second end of the railroad track detection zone and a collocated end of the second approach detection sub-zone;
  
  a zone processor;
  
  a plurality of sensor devices mounted adjacent to the track at each gateway and within sensor device sensing range, wherein each sensor device comprises;
  
  one or more sensor elements configured to generate analog waveform data representative of trains passing one of the gateways on the track, the waveform data further being representative of a train'"'"'s effect on the Earth'"'"'s magnetic field;
  
  sensor device processor apparatus coupled to each sensor element, wherein the sensor device processor apparatus is configured to process analog waveform data generated by each sensor element and to generate time-stamped digital train event data;
  
  communication apparatus coupled to the sensor device processor apparatus, wherein the communication apparatus is configured to transmit time-stamped digital train event data to the zone processor;
  
  wherein the zone processor is configured to evaluate time-stamped digital train event data transmitted to the zone processor by the plurality of sensor devices to generate an output state indicative of whether the railroad track detection zone is occupied or unoccupied by a train.
- View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
- - 14. The system of claim 13 wherein each communication apparatus is configured to comply with a vital communication protocol.
  - 15. The system of claim 14 wherein each sensor device further comprises a power supply.
  - 16. The system of claim 15 wherein each power supply is at least one of the following:
    - self-sustaining;
      
      self-recharging;
      
      an energy harvesting apparatus.
  - 17. The system of claim 16 wherein the zone processor is configured to implement dynamic time warping to evaluate degree of match between first UTIS data and second UTIS data, wherein the first UTIS data comprises data transmitted to the zone processor by a first sensor device and further wherein the second UTIS data comprises data transmitted to the zone processor by a second sensor device.
  - 18. The system of claim 16 wherein the zone processor is configured to implement dynamic time warping to evaluate degree of match between first UTIS data and second UTIS data, wherein the first UTIS data comprises data transmitted to the zone processor by a first sensor device and further wherein the second UTIS data comprises data transmitted to the zone processor by the first sensor device.
  - 19. The system of claim 16 further comprising a railroad signaling device communicatively coupled to the zone processor, wherein the signaling device provides a warning signal when the zone processor output state indicates that the railroad track detection zone is occupied.
  - 20. The system of claim 16 wherein each sensor element comprises an anisotropic magnetoresistive (AMR) sensor configured to generate one of the following:
    - one-dimensional analog waveform data, two-dimensional analog waveform data, three-dimensional analog waveform data.

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Current Assignee
Central Signal, LLC
Original Assignee
Central Signal, LLC
Inventors
Baldwin, David E., Ashraf, Ahtasham
Primary Examiner(s)
To, Tuan C.
Assistant Examiner(s)
SMITH, ISAAC G

Application Number

US13/699,549
Publication Number

US 20130062474A1
Time in Patent Office

1,436 Days
Field of Search

701/19, 701/25, 246/122.R, 246/130, 246/292, 340/941
US Class Current

701/19
CPC Class Codes

B61L 29/282 magnetic or inductive contr...

Train detection

First Claim

2 Assignments

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Accused Products

Abstract

102 Citations

20 Claims

Specification

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Train detection

First Claim

2 Assignments

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Subscription Required

0 Petitions

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Accused Products

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Abstract

102 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links