Journal of Jilin University(Engineering and Technology Edition) ›› 2023, Vol. 53 ›› Issue (10): 2826-2838.doi: 10.13229/j.cnki.jdxbgxb.20211385

Previous Articles     Next Articles

Signal timing optimization model for left-turn intersection using double-exit lanes

Lang SONG1,2(),Jian WANG1(),Bin-yu YANG1,Yong ZHU2   

  1. 1.School of Transportation Science and Engineering,Harbin Institute of Technology,Harbin 150090,China
    2.China Merchants Chongqing Communications Technology Research & Design Institute Co. ,Ltd. ,Chongqing 400067,China
  • Received:2021-12-14 Online:2023-10-01 Published:2023-12-13
  • Contact: Jian WANG E-mail:lang_song@qq.com;wang_jian@hit.edu.cn

RICH HTML

 0   

PDF (PC)

129

Abstract:

A control strategy for left-turn intersection using double-exit line is proposed to solve the ineffective problem of left-turn intersections using single-exit lane when the length of the comprehensive function area is too large. This paper first establishes a capacity calculation model of contraflow left-turn lanes by analyzing the operation mechanism of contraflow left-turn lanes using single and double exits. Then, a signal timing optimization model is constructed which the maximum number of motor vehicles as the optimization objective. The result indicates if the number of conventional left-turn lanes is equal to that of pre-signal exit lanes, the traffic capacity of the two modes is the same. If the number of conventional left-turn lanes is greater than that of pre-signal exit lanes, the capacity of double-exit type is significantly greater than that of single-exit type. Sensitivity analysis shows that the capacity of left-turn intersections increases first and then decreases with the change in the total length of the comprehensive functional area and the proportion of left-turn. The total length of the comprehensive functional area with double-exit lane should be between 80 and 100 m.

Key words: engineering of communication and transportation system, signal timing, linear programming, exit lanes for left-turn intersection, contraflow left-turn lane

CLC Number: 

  • U491

Fig.1

Left-turn intersection using single-exit lane"

Fig.2

Left-turn intersection using double-exit lane"

Fig.3

Signal phase scheme"

Fig.4

Arrival and departing curve of the left-turnvehicles"

Table 1

Traffic scenes"

序号简称nilαnilδnilβ左转比例/%各进口道流量/(pcu·h-1备注
11,1,111150低(1000),高(2000)nilα=1,常规左转车道数等于预信号开口车道数
21,1,211250低(1000),高(2000)
32,1,121150低(1600),高(3200)nilα=2,常规左转车道数大于预信号开口车道数
42,1,221250低(1600),高(3200)

Table 2

Basic parameters"

参数取值参数取值参数取值
nie3(5)nisε2(3)Lilp/m1522
sij/(pcu·h-11800υij/(km·h-130dil/(m·pcu-16
Lbp/m22(36)Lilp1:Lilp21:1Cmax/s120
Gmin/s15Gmax/s50Cmin/s80
Gminp/s8Gmaxp/s50Gbpmin/s5
I/s4I'/s3Ymax0.85
υbp/(m·s-11.0Lil/m100

Fig.5

Signal timing results"

Fig.6

Comparative analysis of vehicle average delaysimulation results"

Table 3

Comparative analysis of simulation results"

简称流量单开口式车均延误/(s·pcu-1双开口式车均延误/(s·pcu-1输入流量/(pcu·h-1单开口式通过车辆数/(pcu·h-1双开口式通过车辆数/(pcu·h-1
左转直行整体左转直行整体左转直行整体左转直行整体
1,1,146.4642.4144.4744.5942.4243.524 0002 0241 9693 9932 0241 9693 993
1,1,246.4942.4244.4943.5242.4042.974 0002 0241 9693 9922 0241 9693 993
2,1,144.0642.3743.2243.6938.4541.106 4003 2263 1686 3933 2383 1616 399
2,1,244.0642.3743.2245.4739.5742.556 4003 2263 1686 3933 2263 1676 393
1,1,191.43157.88127.1687.87157.88125.788 0003 1343 6446 7783 0843 6416 725
1,1,291.55157.79127.1584.89157.55123.898 0003 1353 6426 7783 1483 6456 793
2,1,1120.49180.26151.29127.73143.56136.2812 8005 1455 46810 6125 0455 92710 972
2,1,2120.28180.26151.17122.95129.52126.5212 8005 1505 46810 6175 1196 05711 176

"

Fig.7

Influence analysis for total length of comprehensive functional area"

Fig.8

Influence analysis for length ratio of comprehensive functional area"

Fig.9

Influence analysis of left-turn ratio"

1 陈松,李显生,任园园.公交车钩形转弯交叉口自适应信号控制方法[J].吉林大学学报:工学版,2018,48(2):423-429.
Chen Song, Li Xian-sheng, Ren Yuan-yuan. Adaptive signal control method for intersection with hook-turn buses[J]. Journal of Jilin University(Engineering and Technology Edition),2018,48(2):423-429.
2 宋浪,朱湧,王少飞,等. 连续流交叉口信号协调配时及延误模型[J]. 交通运输系统工程与信息,2021,21(3):55-63.
Song Lang, Zhu Yong, Wang Shao-fei, et al. Signal coordination timing and delay model for continuous flow intersection[J]. Journal of Transportation Systems Engineering and Information Technology,2021,21(3):55-63.
3 Claros B, Edara P, Sun C. Site-specific safety analysis of diverging diamond interchange ramp terminals[J]. Transportation Research Record,2016,2556(1):20-28.
4 马万经,谢涵洲.双停车线进口道主、预信号配时协调控制模型[J].吉林大学学报:工学版,2013,43(3):633-639.
Ma Wan-jing, Xie Han-zhou. Integrated control of main-signal and pre-signal on approach of intersection with double stop line[J]. Journal of Jilin University(Engineering and Technology Edition),2013,43(3):633-639.
5 安实,宋浪,王健,等.平行流交叉口信号控制策略及效益分析[J].交通运输系统工程与信息,2020,20(3):75-82.
An Shi, Song Lang, Wang Jian, et al. Signal control strategy and benefit analysis of parallel flow intersection[J]. Journal of Transportation Systems Engineering and Information Technology,2020,20(3):75-82.
6 梁培佳.十字交叉口设置逆向可变车道后信号配时设计与仿真研究[D].北京:北京交通大学交通运输学院,2017.
Liang Pei-jia. Research on signal timing design and simulation of the intersection of reverse variable lane[D]. Beijing: College of Transportation, Beijing Jiaotong University,2017.
7 Zhao J, Ma W J, Zhang H M, et al. Increasing the capacity of signalized intersections with dynamic use of exit lanes for left-turn traffic[J]. Transportation Research Record,2013,2355(1):49-59.
8 Wu J M, Liu P, Qin X, et al. Developing an actuated signal control strategy to improve the operations of contraflow left-turn lane design at signalized intersections[J]. Transportation Research Part C: Emerging Technologies,2019,104:53-65.
9 赵靖,马万经,韩印.出口车道左转交叉口几何及信号组合优化模型[J].中国公路学报,2017,30(2):120-127.
Zhao Jing, Ma Wan-jing, Han Yin. Integrated optimization model of layouts and signal timings of exit-lanes for left-turn intersections[J]. China Journal of Highway and Transport,2017,30(2):120-127.
10 Xie S Y, Jiang H. Increasing the capacity of signalized intersections by allocating exit lanes to turning movements[J]. Journal of Advanced Transportation,2016,50(8):2239-2265.
11 陈松,李显生,王运豪,等.借对向出口车道左转交叉口交通控制方案优化[J].哈尔滨工业大学学报,2018,50(3):74-82.
Chen Song, Li Xian-sheng, Wang Yun-hao, et al. Traffic control plan optimization for the intersection with contraflow left-turn lane[J]. Journal of Harbin Institute of Technology,2018,50(3):74-82.
12 任其亮,谭礼平.逆向可变车道交叉口信号配时优化方法[J].交通运输系统工程与信息,2020,20(4):63-70.
Ren Qi-liang, Tan Li-ping. Signal timing optimization method for reverse variable lane intersection[J]. Journal of Transportation Systems Engineering and Information Technology,2020,20(4):63-70.
13 Chen X, Jia Y Q. Sustainable traffic management and control system for arterial with contraflow left-turn lanes[J]. Journal of Cleaner Production,2021,280(2): No.124256.
14 Zhao Y, James R M, Xiao L, et al. A capacity estimation model for a contraflow left-turn pocket lane at signalized intersections[J]. Transportation Research Record,2018,2672(17):22-34.
15 Zhao J, Yu J, Zhou X Z. Saturation flow models of exit lanes for left-turn intersections[J]. Journal of Transportation Engineering, Part A: Systems,2018,145(3): No.04018090.
16 Wu J M, Liu P, Tian Z Z, et al. Operational analysis of the contraflow left-turn lane design at signalized intersections in China[J]. Transportation Research Part C: Emerging Technologies,2016,69:228-241.
17 赵靖,陈凯佳,周溪召.出口道左转交叉口信号控制鲁棒优化方法[J].中国公路学报,2020,33(7):145-155.
Zhao Jing, Chen Kai-jia, Zhou Xi-zhao. Robust optimization of exit-lanes for left-turn intersections[J]. China Journal of Highway and Transport,2020,33(7):145-155.
18 Wu J M, Liu P, Zhou Y, et al. Stationary condition based performance analysis of the contraflow left-turn lane design considering the influence of the upstream intersection[J]. Transportation Research Part C: Emerging Technologies,2021,122:No.102919.
19 孙彪.T型交叉口借道左转设置研究[J].山东交通科技,2020,179(4):116-119, 125.
Sun Biao. Research on setting contraflow left-turn lane at t-shaped intersection[J]. Shandong Communications Technology,2020,179(4):116-119, 125.
20 安实,宋浪,王健,等. 非常规交叉口设计研究现状与展望[J].交通运输工程学报,2020,20(4):1-20.
An Shi, Song Lang, Wang Jian, et al. Research status and prospect of unconventional arterial intersection designs[J]. Journal of Traffic and Transportation Engineering,2020,20(4):1-20.
21 宋浪,王健,杨滨毓,等.连续流交叉口左转非机动车交通组织创新设计[J].交通运输系统工程与信息,2022,22(1):225-233.
Song Lang, Wang Jian, Yang Bin-yu, et al. Innovative design of transportation organization for left-turn non-motor vehicles at continuous flow intersection[J]. Journal of Transportation Systems Engineering and Information Technology,2022,22(1):225-233.
22 Zhao J, Yun M, Zhang H M, et al. Driving simulator evaluation of drivers' response to intersections with dynamic use of exit-lanes for left-turn[J]. Accident Analysis & Prevention,2015,81:107-119.
[1] Hong-tao LI,Lin-hong WANG,Jun-da LI. Influence of lighting and speed limit on visual search ability at highway intersections [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(8): 2287-2297.
[2] Dian-hai WANG,You-wei HU,Zheng-yi CAI,Jia-qi ZENG,Wen-bin YAO. Dynamic road resistance model of intermittent flow on urban roads based on BPR function [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(7): 1951-1961.
[3] Wei-tiao WU,Kun ZENG,Wei ZHOU,Peng LI,Wen-zhou JIN. Deep learning method for bus passenger flow prediction based on multi-source data and surrogate-based optimization [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(7): 2001-2015.
[4] Zhen-liang LIU,Cun-bao ZHAO,Yun-peng WU,Mi-na MA,Long-shuang MA. Life⁃cycle seismic resilience assessment of highway bridge networks using data⁃driven method [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(6): 1695-1701.
[5] Hong-fei JIA,Ying-jun XU,Li-li YANG,Nan WANG. League member selection and benefit distribution of commercial vehicles multi⁃modal transportation [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(4): 1060-1069.
[6] Chao SUN,Hao-wei YIN,Wen-yun TANG,Zhao-ming CHU. Sensor deployment strategy and expansion inference of mobile phone data for traffic demand estimation [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(4): 1070-1077.
[7] Xiu-feng CHEN,Yu-tong GUO,Yue-chen WU,Da-yi QU,Meng-yuan GAO. Multi-objective optimization of traffic signal timings based on dandelion algorithm [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(11): 3122-3129.
[8] Wen-jing WU,Kang-bei XIONG,Li-li YANG,Si-xu PU. Optimization of bus transfer preferential strategy in passenger corridor based on mental account theory [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(11): 3113-3121.
[9] Hui-qiu LU,Feng ZHAO,Bo XIE,Yan-tao TIAN. Driver's lane change intention recognition in snow and ice environment based on neural network [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(1): 273-284.
[10] Wen-bo HUANG,Yan-yan CHEN,Shu-shan CHAI. Decision⁃making behavior of pedestrians in cold competition area under the intervention of mobile information [J]. Journal of Jilin University(Engineering and Technology Edition), 2023, 53(1): 132-140.
[11] Xian-min SONG,Shu-tian YANG,Ming-xin LIU,Zhi-hui LI. Fluctuation characteristics and prediction method of bus travel time between stations [J]. Journal of Jilin University(Engineering and Technology Edition), 2022, 52(8): 1792-1799.
[12] Zhi ZHENG,Bo GENG,Fu-min WANG,Jun-hong DONG,Si-si WEI. Improvement of protective ability for existing low⁃grade concrete guardrail [J]. Journal of Jilin University(Engineering and Technology Edition), 2022, 52(6): 1362-1374.
[13] Hong-feng XU,Hong-jin CHEN,Dong ZHANG,Qian-hui LU,Na AN,Xian-cai Geng. Fully⁃actuated signal timing technique for isolated signalized intersections in connected vehicle environment [J]. Journal of Jilin University(Engineering and Technology Edition), 2022, 52(6): 1324-1336.
[14] Wen-jing WU,Yong-bin ZHAN,Li-li YANG,Run-chao CHEN. Coordinated control method of variable speed limit in on⁃ramp area considering safety distance [J]. Journal of Jilin University(Engineering and Technology Edition), 2022, 52(6): 1315-1323.
[15] Hong-fei JIA,Zi-han SHAO,Li-li YANG. Ride⁃sharing matching model and algorithm of online car⁃hailing under condition of uncertain destination [J]. Journal of Jilin University(Engineering and Technology Edition), 2022, 52(3): 564-571.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
Copyright © Journal of Jilin University(Engineering and Technology Edition), All Rights Reserved.
Tel: +86-431-85095297 Fax: +86-431-85094074 E-mail: xbgxb@jlu.edu.cn
Powered by Beijing Magtech Co. Ltd