吉林大学学报(工学版) ›› 2017, Vol. 47 ›› Issue (3): 756-764.doi: 10.13229/j.cnki.jdxbgxb201703010

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Competitive and cooperative relationship evolution mechanism between urban rail transit and traditional bus

ZHAO Xue-yu, YANG Jia-qi, PENG Ya-mei   

  1. School of Transportation, Wuhan University of Technology, Wuhan 430063, China
  • Online:2017-05-20 Published:2017-05-20

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Abstract: To reveal the competition and cooperation evolution mechanism between urban rail transit and traditional bus, the evolution model of the self-organization systems in urban passenger transport flow is constructed. On this basis, the competition model consisting of urban rail and traditional bus is established with the coexistence of both competitive effect and cooperative effect. Finally, as a case study, the evolution mechanism in different stages in Wuhan city is analyzed. The development feature of the competitive and cooperative effects of urban public transit at each stage is obtained and corresponding strategy is illustrated. This study provides a reference for the planning and development of urban rail transit and public bus networks.

Key words: engineering of communication and transportation system, urban rail transit, self-organization evolution, competitive and cooperative effect, competitive and cooperative relationship, evolution mechanism

CLC Number: 

  • U121
[1] Tabuchi T. Bottleneck congestion and modal split[J]. Journal of Urban Economics,1993,34(8):414-431.
[2] Hollander Y, Prashker J N. The applicability of non-cooperative game theory in transport analysis[J]. Transportation,2006,33(5):481-496.
[3] 刘华胜. 城市轨道交通与地面公交协调优化关键方法研究[D]. 长春:吉林大学交通学院,2015.
Liu Hua-sheng. Study on key methods of coordinate optimization between rail and bus[D].Changchun: College of Transportation,Jilin University,2015.
[4] 李橘云. 基于轨道交通的常规公交线路优化对策研究[J]. 都市快轨交通,2009(3):10-13.
Li Ju-yun. Research on the measures for optimizing bus lines based on rail transit[J]. Urban Rapid Rail Transit,2009(3):10-13.
[5] 唐文彬,张飞涟,李晶晶,等. 城市轨道交通与常规公交的合作博弈定价模型[J]. 科技进步与对策,2012,29(18):69-71.
Tang Wen-bin, Zhang Fei-lian, Li Jing-jing, et al. The cooperation game pricing model for urban rail and bus[J]. Science and Technology Progress and Policy,2012,29(18):69-71.
[6] 黄建中,余波. 接驳城市轨道交通的社区公交研究——以上海市为例[J]. 城市规划学刊,2014(3):77-84.
Huang Jian-zhong, Yu Bo. A research on integrating community bus with urban railway system: the case study of shanghai[J]. Urban Planning Forum,2014(3):77-84.
[7] 孙杨,孙小年,孔庆峰,等. 轨道交通新线投入运营下常规公交网络优化调整方法研究[J]. 铁道学报,2014,36(3):1-8.
Sun Yang,Sun Xiao-nian,Kong Qing-feng, et al. Methodology of bus network optimization and adjustment under operation of new urban rail transit line[J]. Journal of the China Railway Society,2014,36(3):1-8.
[8] 马天山,曹玮,乔新宇. 城市轨道交通与接运公交换乘优化模型[J]. 长安大学学报:自然科学版,2013,33(4):80-85.
Ma Tian-shan, Cao Wei, Qiao Xin-yu. Optimization model of shuttle between urban-rail and feeder-bus[J]. Journal of Chang'an University (Natural Science Edition),2013,33(4):80-85.
[9] 张杰林,李铁柱. 基于竞争模型的轨道交通与地面公交共线分析[J]. 交通信息与安全,2014,32(4):108-112.
Zhang Jie-lin, Li Tie-zhu. Urban rail transit and bus collinear analysis based on competition model[J]. Journal of Transport Information and Safety,2014,32(4):108-112.
[10] Mohaymany A S, Gholami A. Multimodal feeder network design problem: ant colony optimization approach[J]. Journal of Transportation Engineering,2010,136(4):323-331.
[11] Song Li-jing, Chen Feng, Xian Kai,et al. Research on a scientific approach for bus and metro networks integration[C]∥8th International Conference on Traffic and Transportation Studies, Changsha, China, 2012:740-747.
[12] Nanduri V, Kazemzadeh N. Economic impact assessment and operational decision making in emission and transmission constrained electricity markets[J]. Applied Energy,2011,96:212-221.
[13] Sivakumaran K, Li Y W, Cassidy M J, et al. Cost-saving properties of schedule coordination in a simple trunk-and-feeder transit system[J]. Transportation Research Part A,2011,46(1):131-139.
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