Journal of Jilin University(Engineering and Technology Edition) ›› 2023, Vol. 53 ›› Issue (2): 421-429.doi: 10.13229/j.cnki.jdxbgxb20210733

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Algebraic method of bidirectional green wave coordination control for the head of the platoon considering the clearance time

Kai LU1,2,3(),Guang-hui XU1,Zhi-hong YE1,Yong-jie LIN1()   

  1. 1.School of Civil Engineering and Transportation,South China University of Technology,Guangzhou 510640,China
    2.Jiangsu Province Collaborative Innovation Center of Modern Urban Traffic Technologies,Southeast University,Nanjing 211189,China
    3.State Key Laboratory of Subtropical Building Science,South China University of Technology,Guangzhou 510640,China
  • Received:2021-08-04 Online:2023-02-01 Published:2023-02-28
  • Contact: Yong-jie LIN E-mail:kailu@scut.edu.cn;linyjscut@scut.edu.cn

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Abstract:

Based on the requirements of bidirectional green wave coordination control for the head of the platoon on the arterial street, aiming at the incoming traffic flow of different movements at the upstream intersection, considering the influence of traffic flows and saturation flows, the setting of intersection phase sequences, the duration of arterial coordination phases and other factors, the computing method of the total clearance time of queuing vehicles was given. The calculation of bias-split in different directions were analyzed, the calculation processes of intersection offset and arterial green wave bandwidth were presented, and the algebraic method of bidirectional green wave coordination control for the head of the platoon considering the clearance time was established. The findings show that, compared with traffic signal optimization software SYNCHRO and TRANSYT, better results in reducing the average delay and stops of the coordinated platoon can be achieved by this method.

Key words: traffic engineering, coordination control, green wave bandwidth, head of the platoon, queuing vehicle, clearance time

CLC Number: 

  • U491.5

Fig.1

Composition and arrival of through traffic flow at downstream intersection"

Fig.2

Calculation of ideal distance between intersection Ii and Ij"

Fig.3

Channelization, traffic diversion and signal timing parameters at arterial intersections"

Table 1

Clearance time of queuing vehicles in directions I1→I2 and I2→I1"

公共信号周期100102104106108110112114116118120
I1I2tCL(1→2)3.43.53.63.63.73.83.93.94.04.14.1
tCR(1→2)3.63.73.73.83.94.04.04.14.24.24.3
tCT(1→2)0.00.00.00.00.00.00.00.00.00.00.0
tC(1→2)7.07.27.37.47.67.87.98.08.28.38.4
I2I1tCL(2→1)5.25.35.45.55.65.75.85.96.06.16.3
tCR(2→1)5.25.35.45.55.65.75.85.96.06.16.3
tCT(2→1)0.00.00.00.00.00.00.00.00.00.00.0
tC(2→1)10.410.610.811.011.211.411.611.812.012.212.6

Table 2

Total clearance time of turning vehicles in directions I2→I3 and I3→I2"

公共信号周期100102104106108110112114116118120

I2I3

I2相序

东西北南5.05.25.25.35.45.55.65.85.85.96.0
东西南北5.05.25.25.35.45.55.65.85.85.96.0
东北西南5.05.25.25.35.45.55.65.85.85.96.0
东北南西8.48.68.68.89.09.29.49.69.69.810.0
东南北西8.48.68.68.89.09.29.49.69.69.810.0
东南西北5.05.25.25.35.45.55.65.85.85.96.0

I3I2

I3相序

东西北南4.64.84.85.05.05.25.25.45.45.65.6
东西南北4.64.84.85.05.05.25.25.45.45.65.6
东北西南2.72.82.82.92.93.13.13.23.23.33.3
东北南西2.72.82.82.92.93.13.13.23.23.33.3
东南北西2.82.93.03.13.13.23.23.33.33.43.4
东南西北2.82.93.03.13.13.23.23.33.33.43.4

Fig.4

Design scheme of bidirectional green wave coordination for the beginning of green time"

Fig.5

Time-space diagram of the scheme designed by SYNCHRO and TRANSYT"

Table 3

Simulation operation effect of through traffic flow in each section"

设计方案I1I2I2I3I3I2I2I1所有路段
延误/s停车次数延误/s停车次数延误/s停车次数延误/s停车次数延误/s停车次数
SYNCHRO15.30.354.00.074.00.0532.71.0114.30.38
TRANSYT41.70.535.00.1716.30.9212.30.4117.80.44
本文方法23.30.253.50.071.50.0219.90.2312.30.15
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