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US20020045975A1 - Multi-sensor route detector for rail vehicle navigation - Google Patents

Multi-sensor route detector for rail vehicle navigation
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Publication number
US20020045975A1
US20020045975A1US09/833,075US83307501AUS2002045975A1US 20020045975 A1US20020045975 A1US 20020045975A1US 83307501 AUS83307501 AUS 83307501AUS 2002045975 A1US2002045975 A1US 2002045975A1
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sensor
rail
railway vehicle
route
truck
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US6397130B1 (en
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Gary Carr
Brian Mee
J. Kesler
Boris Nejikovsky
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Ensco Inc
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Ensco Inc
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Abstract

The multi-sensor route detector system preferably consists of at least four sensors (three rail detectors and a truck angle detector), sensor power supplies, signal conditioning for the output of the sensors, and a computer performing pattern matching and logic functions to positively identify track features of interest. The system is not a stand-alone navigation system, but will interface with the rest of the vehicle navigation system and provide data over an interface. This data will include notification of passage of turnouts, whether or not the route changed through the turnout and possibly the type of turnout (i.e., number 6 left). From external sensors, the multi-sensor route detector will obtain a signal such as block distance pulse indicating distance traveled along the track. The best estimate of the vehicle position will also be sent to the multi-sensor route detector. Based on the present position, the multi-sensor route detector will access the appropriate turnout data from its internal database.

Description

Claims (16)

We claim:
1. A multi-sensor route detector for a railway vehicle traveling a route along a track having two spaced rails comprising:
at least first, second and third rail sensors, each providing a rail sensing output signal upon crossing a rail,
said first rail sensor being mounted on the railway vehicle in a position between the tracks supporting the railway vehicle,
said second rail sensor being mounted on the rail vehicle in a position spaced outwardly from a first of said two spaced rails, and
said third rail sensor being mounted on the rail vehicle in a position spaced outwardly from a second of said two spaced rails.
2. The multi-sensor route detector ofclaim 1 wherein said railway vehicle includes a vehicle body and a wheel supporting truck pivotally mounted on said vehicle body, and
a truck angle sensor mounted on said railway vehicle to provide a truck angle signal when said wheel supporting truck pivots relative to said vehicle body.
3. The multi-sensor route detector ofclaim 1 which includes a central processing unit connected to receive the outputs from said rail sensors, said central processing unit including previously stoned rail sensor outputs as stored signatures for special trackwork configurations along the route of said railroad vehicle, said central processing unit operating to compare the outputs from said rail sensors to one or more of said stored signatures.
4. The multi-sensor route detector ofclaim 3 which includes one or more vehicle position indicating units connected to said central processing unit to provide position data identifying the position of said railway vehicle to said central processing unit, said central processing unit operating in response to said position data to select stored signatures in an area of the position identified by said position data for comparison with the outputs from said rail sensors.
5. The multi-sensor route detector ofclaim 2 which includes a central processing unit connected to receive the outputs from said rail sensors and said truck angle sensor, said central processing unit including previously stored rail and truck angle sensor outputs as stored signatures for turnouts, crossovers and ladder track configurations along the route of said railroad vehicle, said central processing unit operating to compare the outputs from said rail and truck angle sensors to one or more of said stored signatures.
6. The multi-sensor route detector ofclaim 5 which includes one or more vehicle position indicating units connected to said central processing unit to provide position data identifying the position of said railway vehicle to said central processing unit, said central processing unit operating in response to said position data to select stored signatures in an area of the position identified by said position data for comparison with the outputs from said rail and truck angle sensors.
7. A route detector for a railway vehicle traveling a route along a track, said railway vehicle including a vehicle body and a wheel supporting truck pivotally mounted on said vehicle body, said route detector comprising:
at least one truck angle sensor mounted on said railway vehicle to provide a truck angle signal when said wheel supporting truck pivots angularly relative to said vehicle body, and
a central processing unit connected to receive the truck angle signals from said truck angle sensor.
8. The route detector ofclaim 7 wherein said central processing unit includes previously stored truck angle sensor outputs as stored signatures for special trackwork configurations along the route of said railway vehicle, said central processing unit operating to compare the outputs from said truck angle sensor to one or more of said stored signatures.
9. The route detector ofclaim 8 which includes one or more vehicle position indicating units connected to said central processing unit to provide position data identifying the position of said railway vehicle to said central processing unit, said central processing unit operating in response to said position data to select stored signatures in an area of the position identified by said position data for comparison with the outputs from said truck angle sensors.
10. A method for detecting the passage of a railway vehicle relative to special trackwork configurations as the railway vehicle travels a route along a track having two spaced rails which includes:
moving a first railway vehicle over special trackwork configurations along the route which is equipped with a plurality of rail sensors mounted on the railway vehicle to provide a rail sensing output signal each time a rail sensor crosses a rail at a special trackwork configuration,
storing the rail sensing output signals from said first railway vehicle at each special trackwork configuration as a stored signature for each special trackwork configuration,
using a plurality of rail sensors mounted on a second railway vehicle subsequently traveling along the same route to provide a real time rail sensing output signal each time a rail sensor crosses a rail at a special trackwork configuration to create a real time signature and
comparing each real time signature with one or more stored signatures.
11. The method ofclaim 10 which includes:
locating a first rail sensor between the rails of the track,
locating a second rail sensor spaced outwardly from a second side of the track, and
locating a third rail sensor spaced outwardly from a third side of the track opposite to said second side.
12. The method ofclaim 11 which includes:
locating said first rail sensor centrally between the rails of the track, and
equally spacing said second and third rail sensors from said first rail sensor.
13. The method ofclaim 10 wherein said first and second railway vehicles each include a vehicle body and a wheel supporting truck pivotally mounted on said vehicle body, the method further including:
mounting a truck angle sensor on said first railway vehicle to provide a truck angle signal when said wheel truck pivots relative to said vehicle body as said first railway vehicle moves over a special trackwork configuration,
storing said truck angle signals from said first railway vehicle at each special trackwork configuration as part of the stored signature for such special trackwork configuration,
using a truck angle sensor mounted on said second railway vehicle to provide a real time truck angle signal each time said wheel truck pivots relative to the body of said second railway vehicle at a special trackwork configuration, and including said real time truck angle signal in said real time signature.
14. The method ofclaim 13 which includes:
locating a first rail sensor between the rails of the track,
locating a second rail sensor spaced outwardly from a second side of the track, and
locating a third rail sensor spaced outwardly from a third side of the track opposite to said second side.
15. The method ofclaim 14 which includes:
locating said first rail sensor centrally between the rails of the track, and
equally spacing said second and third rail sensors from said first rail sensor.
16. A method for detecting passage of a railway vehicle relative to special trackwork configurations as the railway vehicle travels a route along a track having two spaced rails which includes:
moving a first railway vehicle having a wheel supporting truck pivoted on a vehicle body over special trackwork configurations along the route which is equipped with a truck angle sensor mounted on the railway vehicle to provide a truck angle output signal each time the wheel supporting truck pivots relative to the vehicle body as the railway vehicle passes over a special trackwork configuration,
storing the truck angle output signals from said first railway vehicle at each special trackwork configuration as a stored signature for each special trackwork configuration,
using a truck angle sensor mounted on a second railway vehicle subsequently traveling along the same route to provide a real time truck angle output each time. The wheel supporting of truck pivots relative to the vehicle body at a special trackwork configuration to create a real time signature, and
comparing each real time signature with one or more stored signatures.
US09/833,0752000-04-132001-04-12Multi-sensor route detector for rail vehicle navigationExpired - LifetimeUS6397130B1 (en)

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US19693800P2000-04-132000-04-13
US09/833,075US6397130B1 (en)2000-04-132001-04-12Multi-sensor route detector for rail vehicle navigation

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Cited By (32)

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US20040172216A1 (en)*2003-02-282004-09-02General Electric CompanyActive broken rail detection system and method
US20050251337A1 (en)*2003-01-132005-11-10Konkan Rail Way Corporation Ltd.Anti-collision device for trains and the like
US20070156298A1 (en)*2005-12-302007-07-05Canadian National Railway CompanySystem and method for computing rail car switching solutions by assessing space availability in a classification track on the basis of arrival profile
US20070179688A1 (en)*2005-12-302007-08-02Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard
US20070299570A1 (en)*2005-12-302007-12-27Kari MuinonenSystem and method for forecasting the composition of an outbound train in a switchyard
US20080119973A1 (en)*2005-12-302008-05-22Anshu PathakSystem and method for computing rail car switching sequence in a switchyard
EP1690192A4 (en)*2003-11-042009-03-11Lockheed CorpLocomotive location system and method
US20090210154A1 (en)*2008-02-152009-08-20Willis Sheldon GVital system for determining location and location uncertainty of a railroad vehicle with respect to a predetermined track map using a global positioning system and other diverse sensors
US20100222948A1 (en)*2005-12-302010-09-02Canadian National Railway CompanySystem and method for computing rail car switching solutions by assessing space availability in a classification track on the basis of block pull time
US20100222947A1 (en)*2005-12-302010-09-02Canadian National Railway CompanySystem and method for computing car switching solutions in a switchyard using car eta as a factor
US20100235021A1 (en)*2005-12-302010-09-16Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard including logic to re-switch cars for arrival rate
WO2010127958A1 (en)*2009-05-072010-11-11Siemens AktiengesellschaftMethod and apparatus for determining the position of rail-bound vehicles
US20100324759A1 (en)*2005-12-302010-12-23Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard including logic to re-switch cars for block size
US20100324760A1 (en)*2005-12-302010-12-23Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard using an iterative method
US8019497B2 (en)2005-12-302011-09-13Canadian National Railway CompanySystem and method for computing rail car switching solutions using dynamic classification track allocation
US20120062731A1 (en)*2010-03-312012-03-15East Japan Railway CompanyDistance image obtaining system for track
US20130218775A1 (en)*2012-02-222013-08-22Oberthur TechnologiesMethod and secure device for performing a transaction
CN104652240A (en)*2015-01-162015-05-27山推工程机械股份有限公司Automatic tracking device, method and system of milling machine
US9168936B2 (en)2012-11-132015-10-27Wabtec Holding Corp.System and method of transforming movement authority limits
GB2562414A (en)*2018-07-262018-11-14Innovarail LtdDetermining position of a vehicle on a rail
RU2676597C2 (en)*2013-10-102019-01-09Нью Йорк Эйр Брэйк, ЛЛСиParallel tracks design description
CN110453547A (en)*2019-08-212019-11-15长沙瀚鹏电子技术有限公司 A three-rail synchronous track lifting control system for a railway turnout tamping vehicle
CN110453548A (en)*2019-08-212019-11-15长沙瀚鹏电子技术有限公司 An automatic operation control system for a railway turnout tamping vehicle
CN111791922A (en)*2020-07-232020-10-20北京天润海图科技有限公司Method and device for identifying forked tracks of intelligent rail car
CN112130560A (en)*2020-08-262020-12-25江苏集萃道路工程技术与装备研究所有限公司Material pile following control system and control method for in-situ microwave heating machine
US10936336B1 (en)*2019-09-242021-03-02Amazon Technologies, Inc.Configuration change tracking with multiple manifests
US10958522B1 (en)2019-09-242021-03-23Amazon Technologies, Inc.Configuration tracking perimeter
CN114179867A (en)*2021-11-182022-03-15通号万全信号设备有限公司Adjusting method and device for rail transit train positioning
CN114954578A (en)*2022-05-312022-08-30通号城市轨道交通技术有限公司Automatic generation method and system of foldback route table
US12003365B1 (en)2019-09-242024-06-04Amazon Technologies, Inc.Configuration change tracking
CN118958111A (en)*2024-10-152024-11-15中汽研汽车检验中心(天津)有限公司 Lane line positioning method, system, electronic device and medium

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Cited By (43)

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US20040153401A1 (en)*2001-06-122004-08-05Janos GilaDual toll system
US7630918B2 (en)*2001-06-122009-12-08Siemens AktiengesellschaftDual toll system
US20050251337A1 (en)*2003-01-132005-11-10Konkan Rail Way Corporation Ltd.Anti-collision device for trains and the like
US20040172216A1 (en)*2003-02-282004-09-02General Electric CompanyActive broken rail detection system and method
US6895362B2 (en)*2003-02-282005-05-17General Electric CompanyActive broken rail detection system and method
EP1690192A4 (en)*2003-11-042009-03-11Lockheed CorpLocomotive location system and method
US8055397B2 (en)2005-12-302011-11-08Canadian National Railway CompanySystem and method for computing rail car switching sequence in a switchyard
US20100324759A1 (en)*2005-12-302010-12-23Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard including logic to re-switch cars for block size
US20070299570A1 (en)*2005-12-302007-12-27Kari MuinonenSystem and method for forecasting the composition of an outbound train in a switchyard
US20080119973A1 (en)*2005-12-302008-05-22Anshu PathakSystem and method for computing rail car switching sequence in a switchyard
US20070179688A1 (en)*2005-12-302007-08-02Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard
US20100222948A1 (en)*2005-12-302010-09-02Canadian National Railway CompanySystem and method for computing rail car switching solutions by assessing space availability in a classification track on the basis of block pull time
US20100222947A1 (en)*2005-12-302010-09-02Canadian National Railway CompanySystem and method for computing car switching solutions in a switchyard using car eta as a factor
US20100235021A1 (en)*2005-12-302010-09-16Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard including logic to re-switch cars for arrival rate
US8332086B2 (en)2005-12-302012-12-11Canadian National Railway CompanySystem and method for forecasting the composition of an outbound train in a switchyard
US8239079B2 (en)2005-12-302012-08-07Canadian National Railway CompanySystem and method for computing rail car switching sequence in a switchyard
US20100324760A1 (en)*2005-12-302010-12-23Canadian National Railway CompanySystem and method for computing rail car switching solutions in a switchyard using an iterative method
US8060263B2 (en)*2005-12-302011-11-15Canadian National Railway CompanySystem and method for forecasting the composition of an outbound train in a switchyard
US7983806B2 (en)*2005-12-302011-07-19Canadian National Railway CompanySystem and method for computing car switching solutions in a switchyard using car ETA as a factor
US8019497B2 (en)2005-12-302011-09-13Canadian National Railway CompanySystem and method for computing rail car switching solutions using dynamic classification track allocation
US20070156298A1 (en)*2005-12-302007-07-05Canadian National Railway CompanySystem and method for computing rail car switching solutions by assessing space availability in a classification track on the basis of arrival profile
US7966126B2 (en)2008-02-152011-06-21Ansaldo Sts Usa, Inc.Vital system for determining location and location uncertainty of a railroad vehicle with respect to a predetermined track map using a global positioning system and other diverse sensors
US20090210154A1 (en)*2008-02-152009-08-20Willis Sheldon GVital system for determining location and location uncertainty of a railroad vehicle with respect to a predetermined track map using a global positioning system and other diverse sensors
WO2010127958A1 (en)*2009-05-072010-11-11Siemens AktiengesellschaftMethod and apparatus for determining the position of rail-bound vehicles
US20120062731A1 (en)*2010-03-312012-03-15East Japan Railway CompanyDistance image obtaining system for track
US9212902B2 (en)*2010-03-312015-12-15Kawasaki Jukogyo Kabushiki KaishaDistance image obtaining system for track
US20130218775A1 (en)*2012-02-222013-08-22Oberthur TechnologiesMethod and secure device for performing a transaction
US10528943B2 (en)*2012-02-222020-01-07Idemia FranceMethod and secure device for performing a transaction
US9168936B2 (en)2012-11-132015-10-27Wabtec Holding Corp.System and method of transforming movement authority limits
RU2676597C2 (en)*2013-10-102019-01-09Нью Йорк Эйр Брэйк, ЛЛСиParallel tracks design description
CN104652240A (en)*2015-01-162015-05-27山推工程机械股份有限公司Automatic tracking device, method and system of milling machine
GB2562414A (en)*2018-07-262018-11-14Innovarail LtdDetermining position of a vehicle on a rail
GB2562414B (en)*2018-07-262020-12-09Innovarail LtdDetermining position of a vehicle on a rail
CN110453547A (en)*2019-08-212019-11-15长沙瀚鹏电子技术有限公司 A three-rail synchronous track lifting control system for a railway turnout tamping vehicle
CN110453548A (en)*2019-08-212019-11-15长沙瀚鹏电子技术有限公司 An automatic operation control system for a railway turnout tamping vehicle
US10936336B1 (en)*2019-09-242021-03-02Amazon Technologies, Inc.Configuration change tracking with multiple manifests
US10958522B1 (en)2019-09-242021-03-23Amazon Technologies, Inc.Configuration tracking perimeter
US12003365B1 (en)2019-09-242024-06-04Amazon Technologies, Inc.Configuration change tracking
CN111791922A (en)*2020-07-232020-10-20北京天润海图科技有限公司Method and device for identifying forked tracks of intelligent rail car
CN112130560A (en)*2020-08-262020-12-25江苏集萃道路工程技术与装备研究所有限公司Material pile following control system and control method for in-situ microwave heating machine
CN114179867A (en)*2021-11-182022-03-15通号万全信号设备有限公司Adjusting method and device for rail transit train positioning
CN114954578A (en)*2022-05-312022-08-30通号城市轨道交通技术有限公司Automatic generation method and system of foldback route table
CN118958111A (en)*2024-10-152024-11-15中汽研汽车检验中心(天津)有限公司 Lane line positioning method, system, electronic device and medium

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