International Journal of Highway Engineering (한국도로학회논문집)

Korean Society of Road Engineers (한국도로학회)
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Application of Multi-Agent Transport Simulation for Urban Road Network Operation in Incident Case

유고상황 시 MatSIM을 활용한 도시부 도로네트워크 운영 분석

  • Received : 2012.07.12
  • Accepted : 2012.07.23
  • Published : 2012.08.15
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Abstract

PURPOSES : The purpose of this study is to check the possibilities of traffic pattern analysis using MatSIM for urban road network operation in incident case. METHODS : One of the stochastic dynamic models is MatSIM. MatSIM is a transportation simulation tool based on stochastic dynamic model and activity based model. It is an open source software developed by IVT, ETH zurich, Switzerland. In MatSIM, various scenario comparison analyses are possible and analyses results are expressed using the visualizer which shows individual vehicle movements and traffic patterns. In this study, trip distribution in 24-hour, traffic volume, and travel speed using MatSIM are similar to those of measured values. Therefore, results of MatSIM are reasonable comparing with measured values. Traffic patterns are changed according to incident from change of individual behavior. RESULTS : The simulation results and the actual measured values are similar. The simulation results show reasonable ranges which can be used for traffic pattern analysis. CONCLUSIONS : The change of traffic pattern including trip distribution, traffic volumes and speeds according to various incident scenarios can be used for traffic control policy decision to provide effective operation of urban road network.

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References

  1. Anup A, Kulkarni, Michael G, McNally, 2001, A Microsimulation of Daily Activity Patterns, 80th TRB Annual Meeting.
  2. Dong, Xiaojing, Moshe E. Ben-Akiva, John L. Bowman and Joan Walker 2002, Analysis of Activity-Based Accessibility, 81st Transportation Research Board Annual Meeting.
  3. Jinki Eom, 2009, Analysis of Travel Behavior of Rail Passenger by Activity-based Approach: The Case of Seoul-Busan Line, The Korean Society for Railway.
  4. Michael Balmer, 2004, Coupling Activity-based demand generation to a truly agent-based traffic simulation-activity time allocation.
  5. M. Rieser, K. Nagel, 2006, Truly agent-oriented coupling of an activity-based demand generation with a multi-agent traffic simulation.
  6. Ryuichi Kitamura, 1996, "Applications of Model of Activity Behavior for Activity Based Demand Forecasting" Activity-Based Travel Forecasting Conference Proceedings.
  7. Sanghoo Chu, 2008, Exploring Characteristics on Trip Chaining: the Case of Seoul, Korean society of Transportation.
  8. Seonha Lee, 2006, A Study on Trip Generation Model considering Trip-chaining by Behavioral Homogeneous Person Group, Korean society of Transportation.
  9. Taejoong Kim, 2012, Development of Activity-based Simulation Model on the Gangnam-gu Area Network, master's thesis.
  10. Yujin Jung, 2000, Analysis of activity-chaining behavior and activity choice model, master's thesis Yonsei University.