城市普通道路与快速路出口衔接区域信号交叉口公交优先实施方法

张方伟, 王炜, 李志斌, 王宝杰, 杨中进

系统工程理论与实践 ›› 2016, Vol. 36 ›› Issue (7) : 1786-1794.

PDF(888 KB)
中国科学院数学与系统科学研究院期刊网
PDF(888 KB)
系统工程理论与实践 ›› 2016, Vol. 36 ›› Issue (7) : 1786-1794. DOI: 10.12011/1000-6788(2016)07-1786-09
论文

城市普通道路与快速路出口衔接区域信号交叉口公交优先实施方法

    张方伟1, 王炜2,3, 李志斌2,3,4, 王宝杰2,3, 杨中进1
作者信息 +

Novel transit priority strategy for signalized intersection at connecting sections of ordinary road and rapid road in urban areas

    ZHANG Fangwei1, WANG Wei2,3, LI Zhibin2,3,4, WANG Baojie2,3, YANG Zhongjin1
Author information +
文章历史 +

摘要

针对城市普通道路与快速路出口衔接路段的公交优先实施方法开展研究,并提出一种针对该区域交通特征的新型公交优先控制技术.新技术的目标是减少研究区域公交车辆的交通冲突点,以及提升公交车的通行能力.新技术的主要支撑工具是交叉口渠化设计技术.本文对实施公交优先控制前后交叉口各交通方式通行能力进行分析,并结合多属性决策理论给出了不同交通状态下公交优先控制策略.本研究将提出的公交优先控制技术与传统的信号交叉口公交优先控制技术进行了对比,研究结果指出了新公交优先控制技术的优势所在,适用环境以及应用前景.

Abstract

In this paper, we research a kind of public transportation priority problem of signal intersection of adjacency at highway exit ramp, and propose a kind of public transportation priority technology. The goals of this paper are reducing the traffic conflict spots of public transportation and improving the traffic capacity of public transportation in intersection. The main tool of our research is the optimal design technology of intersection channelization. In this paper, combining present multiple attribute decision making theories, we compare the intersections, along with the new public transportation priority control technologies, with the classical public transportation priority control technologies, and with no public transportation priority control technologies. Finally, the advantages, the adaptive environment and the application prospect of the new technology are discussed.

关键词

公交优先 / 信号交叉口 / 普通道路 / 快速道路 / 多属性决策

Key words

transit priority / signalized intersection / ordinary road / rapid road / multi-attribute decision making

引用本文

EndNote

Ris (Procite)

Bibtex

导出引用
张方伟 , 王炜 , 李志斌 , 王宝杰 , 杨中进. 城市普通道路与快速路出口衔接区域信号交叉口公交优先实施方法. 系统工程理论与实践, 2016, 36(7): 1786-1794 https://doi.org/10.12011/1000-6788(2016)07-1786-09
ZHANG Fangwei , WANG Wei , LI Zhibin , WANG Baojie , YANG Zhongjin. Novel transit priority strategy for signalized intersection at connecting sections of ordinary road and rapid road in urban areas. Systems Engineering - Theory & Practice, 2016, 36(7): 1786-1794 https://doi.org/10.12011/1000-6788(2016)07-1786-09
中图分类号: O159    U491.5   

参考文献

[1] He Q, Head K L, Ding J. Multi-modal traffic signal control with priority, signal actuation and coordination[J]. Transportation Research Part C:Emerging Technologies, 2014, 46:65-82.
[2] Garber N J, Hoel L A. Traffic and highway engineering-siversion[M]. Andover:Cengage Learning, 2009.
[3] Zeng X, Zhang Y, Balke K N, et al. A real-time transit signal priority control model considering stochastic bus arrival time[J]. IEEE Transactions on Intelligent Transportation Systems, 2014, 15(4):1657-1666.
[4] 张泉. 公交优先[M]. 北京:中国建筑工业出版社, 2010.Zhang Q. Public transport priority[M]. Beijing:China Architecture and Building Press, 2010.
[5] Li R M, Zhang X F. Bus rapid transit signal priority strategy based on schedule[C]//Transportation Research Board 91st Annual Meeting, 2012:1-16.
[6] Zhao J, Dessouky M, Bukkapatnam S. Optimal slack time for schedule-based transit operations[J]. Transportation Science, 2006, 40(4):529-539.
[7] Kim W, Rilett L R. Improved transit signal priority system for networks with nearside bus stops[J]. Transportation Research Record:Journal of the Transportation Research Board, 2005, 1925(1):205-214.
[8] Erdman J, Panuska E. Exclusive bus lane experiment[J]. Traffic Engineering, 1976, 46(7):28-33.
[9] 李铁柱, 丁建友, 孙云峰, 等. 城市主干道公交专用道设置交通条件研究[J]. 昆明理工大学学报(理工版), 2010, 35(1):56-60.Li T Z, Ding J Y, Sun Y F, et al. Traffic condition for bus lane setting on urban arteries[J]. Journal of Kunming University and Technology (Science and Technology), 2010, 35(1):56-60.
[10] Viegas J, Lu B. The intermittent bus lane signals setting within an area[J]. Transportation Research Part C:Emerging Technologies, 2004, 12(6):453-469.
[11] Yagar S. Efficient transit priority at intersections[J]. Transportation Research Record, 1993(1390):10-15.
[12] Dion F, Hellinga B. A rule-based real-time traffic responsive signal control system with transit priority:Application to an isolated intersection[J]. Transportation Research Part B, 2002, 36(4):325-343.
[13] Felici G, Rinaldi G, Sforza A, et al. A logic programming based approach for on-line traffic control[J]. Transportation Research Part C, 2006, 14(3):175-189.
[14] Cai C, Wong C K, Heydeeker B G. Adaptive traffic signal control using approximate dynamic programming[J]. Transportation Research Part C, 2009, 17(5):456-474.
[15] Michalopoulos P G, Stephanopoulos G. Oversaturated signal systems with queue length constraints-I:Single intersection[J]. Transportation Research, Part A, 1977, 11(6):413-421.
[16] Rathi A K. A control scheme for high traffic density sectors[J]. Transportation Research Part B, 1988, 22(2):81-101.
[17] Lieberman E B, Chang J, Prassas E S. Formulation of real-time control policy for oversaturated arterials[J]. Transportation Research Record, 2000, 1727:77-88.
[18] 王彬, 刘新, 李月高. 一种基于干线协调的公交信号优先方法及验证分析[J]. 公路交通科技, 2011, 28(S1):1-4.Wang B, Liu X, Li Y G. A method of public traffic signal priority and verification based on coordination of trunk road[J]. Journal of Highway and Transportation Research and Development, 2011, 28(S1):1-4.
[19] Roess R P, Prassas E S, McShane W R. Traffic engineering[M]. Upper Saddle River:Pearson Higher Education Inc, 2012:526-544.
[20] Wood A J, Wollenberg B F. Power generation, operation, and control[M]. New York:John Wiley and Sons, 2012.
[21] Tzeng G H, Huang J J. Multiple attribute decision making:Methods and applications[M]. Palm Beach:The Chemical Rubber Company Press, 2011.
[22] Xu Z S. Uncertain multi-attribute decision making:Methods and applications[M]. New York:Springer-Verlag, 2015.
[23] Board T R. Highway capacity manual[M]. Washington:National Research Council, 2000.
[24] 何必胜, 宋瑞, 何世伟,等. 交叉口公交优先预信号感应控制策略仿真实现[J]. 系统仿真学报, 2011, 23(9):1909-1914.He B S, Song R, He S W, et al. Simulation of transit priority based pre-signal actuated control in intersection[J]. Journal of System Simulation, 2011, 23(9):1909-1914.
[25] 张方伟, 王炜, 赵德. 一种基于分层法的区间数多属性决策方法及应用[J].系统工程理论与实践, 2014, 34(11):2881-2884.Zhang F W, Wang W, Zhao D. Method for multiple attributes decision-making with intervals based on layer method and its application[J]. Systems Engineering——Theory & Practice, 2014, 34(11):2881-2884.

基金

国家自然科学基金(51508319,61374195,51409157);国家重点基础研究发展计划(2012CB725402);国家社科基金特别委托项目(07@ZH005);浙江省教育厅项目(Y201327642)
PDF(888 KB)

330

Accesses

0

Citation

Detail
段落导航
相关文章

/