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Tuen Mun – Yuen Long LRT Traffic Control System 20 th April 2007 Prepared by Michael Chiu P26180/PS/PS140405.PPT/LLH/13APR05
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10329/PS1/PS220205.PPT/LLH/21FEB05 Introduction LRT / Road Traffic Control System LRT Detection System Signal Operation Features of Traffic Signal Controller
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10329/PS1/PS220205.PPT/LLH/21FEB05 Introduction The KCRC Light Rail Transit (LRT) was commissioned in 1988 and the system was further expanded between 1991, 1993 and 2003. The current daily passenger volume is about 400,000 which serving Tuen Mun, Yuen Long and Tin Shui Wai of over 1 million of population.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Tuen Mun – Yuen Long LRT System In year 1988, the Phase 1 LRT/Road Traffic Control System was installed in Tuen Mun and Yuen Long Areas to provide priority traffic control for Light Rail Vehicles. The System was further expanded to Tin Shui Wai in years 1993 and 2003.
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10329/PS1/PS220205.PPT/LLH/21FEB05 KCRC Light Rail Transit (LRT)
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10329/PS1/PS220205.PPT/LLH/21FEB05 Basic Operation and Control Principles The Light Rail Vehicle (LRV) Vehicle actuated for road traffic Priority control for LRV suffer minimum delay pass through junction without slowing down
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT / Road Traffic Control System Schematic Diagram Traffic Signal Controller LRT Interface Unit LRT Signalling System LRT Interrogator Unit LRT Request Detectors LRT Request (max 8 nos.) and Interrogator Fault Signals (max 2 nos.) Traffic Controller Fault Signal (1 no.) LRT Signal Lamps Drive (max 8 sets) LRT Request (max 8 nos.) and Interrogator Fault Signals (max 2 nos.) Traffic Controller Fault Signal (1 no.) LRT Signal Lamps Drive LRT Proceed Signal (max 8 sets) Vehicle Detection Loops Push Button Units Lamp Drive to Vehicular and Pedestrian Signals Note : If the period of a LRT request signal is shorten than 4 seconds, it will be treated as an artifical request LRT Cancel Detectors
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10329/PS1/PS220205.PPT/LLH/21FEB05
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Detection System Road traffic detection Inductive loop detector Infra-Red detector Demand Right-of-Way To Extend Green time to Preset Maximum Green Pedestrian Traffic Detection Push Button Demand Right-of-Way LRV Detection Individual LRV identity Request detector Cancel detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 Inductive Loop Detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 Inductive Loop Detector Concrete Slab Inductive Loop Detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 Alternative Vehicle Detector Infra-red Detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Request Detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Cancel Detector
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Signals LRV Signal Junction Speed Indicator
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10329/PS1/PS220205.PPT/LLH/21FEB05 Braking time (A) Intergreen (B) Min. green (C) Intergreen (D) First delay Road junction Flashing proceed period Critical service braking point LRV Stop line Prevent Priority demand Timing Periods of LRV on Approach to Stop Line
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Detection System LRV Request / Cancel Detectors To detect the vehicle number and route number of every LRV LRT Interrogator Unit Processes the LRT request and cancel signals Create LRT request signals to traffic signal controller
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Request Detector LRV request detector will be located at the latest position to permit the LRV to proceed through the junction without being stopped for traffic signals. The location of every request detector would be determined by : 1. LRV Speed Profile 2. Intergreen timings between phases 3. LRT Stop and track point
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Interrogator detects the vehicle number and route number of each LRV and produce a request signal for a particular LRV movement phase. The Interrogator stores information on any LRVs which passed a request detector and have not yet passed the junction and cancel detector. The request signal will be ended when the last requested LRT train reaches the cancel detector. Process of LRT Request Signal
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Proceed Signal
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10329/PS1/PS220205.PPT/LLH/21FEB05
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Features of Traffic Signal Controller Provide inputs for : Maximum 8 Nos. of LRT requests, and Maximum 2 Nos. of Interrogator Fault Signals Provide output for : 1 No. of Controller Fault Total 15 sets of Lamp Drive, in which maximum 8 sets of Lamp Drive can be provided for LRT Phase
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10329/PS1/PS220205.PPT/LLH/21FEB05 Features of Traffic Signal Controller Provide LRT Priority Mode LRV have priority in gaining and holding Right-of- Way over other vehicles Priority LRV demand will curtail the extension time of the current VA phases, and skip all the VA demands in order to move to the stage that constituting the demanded priority phase immediately
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10329/PS1/PS220205.PPT/LLH/21FEB05 Features of Traffic Signal Controller Provide Priority Phase Non-fixed Phase Non-Latching Demand During Inter-stage Period Maximum Green Periods, consists of : VA Maximum Green Period Priority Maximum Green Period Four sets of VA maximum and priority maximum times are provided for each LRV priority phase
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10329/PS1/PS220205.PPT/LLH/21FEB05 Features of Traffic Signal Controller LRT first and second delay periods Provide LRT first and second delay periods to delay processing of LRV request signals. When LRT first delay starts, Detector Fault Monitoring (DFM) facility will be run to monitor the duration of that LRT request. During the second delay, a stage change is prevented except to the stage that constituting the specified LRV phase. After expiry of the LRV first and second delay, a priority demand will be inserted to the associated LRV Phase Movement.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Features of Traffic Signal Controller LRT first and second delay periods Provide LRT first and second delay periods to delay processing of LRV request signals. When LRT first delay starts, Detector Fault Monitoring (DFM) facility will be run to monitor the duration of that LRT request. During the second delay, a stage change is prevented except to the stage that constituting the specified LRV phase. After expiry of the LRV first and second delay, a priority demand will be inserted to the associated LRV Phase Movement.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Phase Compensation If a VA phase is curtailed by LRV priority, an extension of the VA maximum time of that VA phase may be introduced next time when it gains right of way. Four different sets of compensate timers can be configured in associated with the LRT phase to cope with the AM peak, PM peak, Off-peak and Fault Mode operations
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10329/PS1/PS220205.PPT/LLH/21FEB05 Extended Intergreen Period Extended Intergreen Period shall be run after an LRT phase under the following conditions : 1.If there is an outstanding LRT demand; 2.If there is an LRT fault, priority DFM or artificial request; 3.If the controller is in fixed time or manual modes.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Extended Intergreen Period (Cont’d) Extended Intergreen Period shall be terminated when either : 1.The outstanding LRT demand has been cleared; or 2.The Extended Intergreen Period has been extended to its maximum value.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Extended Intergreen Period (Cont’d) An optional facility (Flexible All Red Facility) can be provided for complicated junction with several LRV phases and LRV stages. The traffic controller can select 6 different Extended Intergreen periods in accordance with the phase to phase and stage to stage movements taking place.
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT First Come First Serve Facility In general the controller will serve the Priority demands in cyclic order. At some junctions one LRV approach may be used by 2 LRVs which turn in different directions at the junction, it may need to use First Come First Serve Logic to serve the LRV demands in the order of sequence of arrival.
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Service Order Facility The traffic controller will remember which V.A. stage was served before the priority stage, and, if there is a V.A. demand move to the next stage. The stage sequence of this example junction would be Stage 1=>Stage 2=>Stage 1=> Stage 3=>Stage 1=>Stage 4=> Stage 1=>Stage 5
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10329/PS1/PS220205.PPT/LLH/21FEB05 Detection of LRT Faults The traffic controller detects 3 types of LRT faults, including - Interrogator Fault - Artificial Request - Priority DFM The traffic controller will also count the numbers of the LRT faults, and time the fault durations.
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRT Fault Mode Operation When LRT fault (Artificial Request, Priority DFM or Interrogator Fault) is detected, the traffic controller will enter Fault Mode Operation, and take the following actions : 1.Disable priority operation for the faulty request. 2.Insert permanent demand to the faulty LRT phase. 3.Every time the faulty LRT phase terminates, the controller will insert Extended Intergreen Period and extend to the maximum. 4.Run the Fault Mode Plan (with shorter cycle time) when the Interrogator fails or serious LRT detector failures is detected. The fault mode operation will be self-reset after the LRT fault has been cleared.
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Signal Timings Stop R C 30 Stop 1 st Delay Green Proceed Flashing Proceed Constant Junction Speed braking Direction of Travel LRV Speed Profile Inter- Green Min Green Inter- Green Braking Time Priority Demand Prevent/2 nd Delay TT T
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Speed Profiles P-way Alignment Diagram Acceleration/Deceleration Characteristic Tables Speed Restrictions at Curves
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10329/PS1/PS220205.PPT/LLH/21FEB05 Permanent-way Alignment Diagram
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Acceleration/Deceleration Characteristic Tables Target Speed Initial Speed 0510152025303540455055606570 Initial Speed 0 0.83.27.212.920.128.939.462.697.9134.6175.1219.4267.7319.80 503.52.46.412.119.328.138.661.897.1133.8174.3218.6266.9319.05 107.03.54.09.716.925.736.259.494.7131.4171.9216.2264.5316.610 1511.27.74.25.712.921.732.255.490.7127.4167.9212.2260.5312.615 2015.512.08.54.37.216.026.549.785.0121.7162.2206.5254.8306.920 2522.819.315.811.67.38.819.342.577.8114.5155.0199.3247.6299.725 3030.026.523.018.814.57.210.533.769.0105.7146.2190.5238.8290.930 3540.537.033.529.325.017.710.523.258.595.2135.7180.0228.3280.435 4051.047.544.039.835.528.221.010.535.372.0112.5156.8205.1257.240 4563.560.056.552.348.040.733.523.012.536.777.2121.5169.8221.945 5075.572.068.564.360.052.745.535.024.512.040.584.8133.1185.250 5590.887.383.879.675.368.060.850.339.827.315.344.392.6144.755 60106.0102.599.091.890.583.276.065.555.042.530.315.248.3100.460 65123.0119.5116.0111.8107.5100.293.082.572.059.547.532.217.052.165 70141.0137.5134.0129.8125.5118.2111.0100.590.077.565.550.235.018.070 0510152025303540455055606570 Target Speed Acceleration / Deceleration Distance (in metre)
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Acceleration/Deceleration Characteristic Tables Target Speed Initial Speed 0510152025303540455055606570 Initial Speed 01.22.33.54.65.86.98.110.313.316.118.921.724.427.20 501.1 2.33.44.65.76.99.112.114.917.720.523.226.05 102.21.11.22.33.54.65.88.011.013.816.619.422.124.910 153.32.21.1 2.33.44.66.89.812.615.418.220.923.715 204.43.32.21.11.22.33.55.78.711.514.317.119.822.620 255.54.43.32.21.1 2.34.57.510.313.115.918.621.425 306.65.54.43.32.21.11.23.46.49.212.014.817.520.330 358.17.05.94.83.72.61.52.25.28.010.813.616.319.135 409.07.96.85.74.63.52.40.93.05.88.611.414.116.940 459.88.77.66.55.44.33.21.70.82.85.68.411.113.945 5010.89.78.67.56.45.34.22.71.81.02.85.68.311.150 5511.710.69.58.47.36.25.13.62.71.90.92.85.58.355 6012.611.510.49.38.27.16.04.53.62.81.80.92.75.560 6513.512.411.310.29.18.06.95.44.53.72.71.80.92.865 7014.413.312.211.110.08.97.86.35.44.63.62.71.80.970 0510152025303540455055606570 Target Speed Acceleration / Deceleration Time (in second)
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10329/PS1/PS220205.PPT/LLH/21FEB05 LRV Speed Restrictions Table SpeedCurve Radius Without CantCurve Radius With Cant 0-- 5 1011-- 152011.0 203216.6 255025.1 307131.6 359747.4 4012662.0 4516077.5 5019793.8 55238113.6 60284135.7 65333160.0 70386186.4 75443214.6 80503284.0
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10329/PS1/PS220205.PPT/LLH/21FEB05 Enhanced LRT Facilities KCRC has installed a new LRT Signalling System for Tin Shui Wai Phase IV Extension in December 2003. It is scheduled to replace the existing LRT Signalling System in Tuen Mun, Yuen Long and Tin Shui Wai areas by end 2005 or early 2006. The new LRT Signalling System has incorporated some new facilities to enhance the operation of the system. Subject to the approval of TD, the Enhanced LRT facilities might be implemented along with the new Signialling System. If it happens, the future ATC System should take account of the Enhanced LRT facilities.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Efficiency Latched / unlatched demand Compensation time Flexible all red facility Variable Dwell Time
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10329/PS1/PS220205.PPT/LLH/21FEB05 Latched/Unlatched Demand Latched Demand - The demand remains active until the phase or stage is served. Unlatched Demand – The demand is cleared if the demand condition ceases before the phase or stage is served.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Compensation Time If a VA phase is curtailed by LRV priority, an extension of the VA maximum time of that VA phase may be introduced next time when it gains right of way. 4 different sets of compensate timers can be configured in associated with the LRT phase to cope with the AM peak, PM peak, Off-peak and Fault Mode operations.
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10329/PS1/PS220205.PPT/LLH/21FEB05 Phase Compensation
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10329/PS1/PS220205.PPT/LLH/21FEB05
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