A Traffic Simulation Package Based on Travel Demand
In this paper we propose a new traffic simulation
package, TDMSim, which supports both macroscopic and
microscopic simulation on free-flowing and regulated traffic systems.
Both simulators are based on travel demands, which specify the
numbers of vehicles departing from origins to arrive at different
destinations. The microscopic simulator implements the carfollowing
model given the pre-defined routes of the vehicles but also
supports the rerouting of vehicles. We also propose a macroscopic
simulator which is built in integration with the microscopic simulator
to allow the simulation to be scaled for larger networks without
sacrificing the precision achievable through the microscopic
simulator. The macroscopic simulator also enables the reuse of
previous simulation results when simulating traffic on the same
networks at later time. Validations have been conducted to show the
correctness of both simulators.
[1] J. Miller, and E. Horowitz, "FreeSim - A Free Real-Time Freeway
Traffic Simulator", Proc. IEEE Conference on Intelligent Transportation
Systems, ITSC, pp. 18-23, 2007.
[2] Owen, E. Larry, Y. Zhang, L. Rao, and G. McHale, "Traffic Flow
Simulation Using CORSIM." Proceedings of the 2000 Winter
Simulation Conference, December 10-13, 2000.
[3] Q. Yang, and H. N. Koutsopoulos, "A Microscopic Traffic Simulator for
Evaluation of Dynamic Traffic Management Systems." Transpn Res.,
Part C, Volume 4, Number 3, 1996.
[4] Cameron, Gordon, J.N. Wylie, and D. McArthur, "Paramics: Moving
Vehicles on the Connection Machine." Proceedings of the 1994
ACM/IEEE Conference on Supercomputing, November 14-19, 1994.
[5] Wang, Yibing, MarkosPapageorgiou, Albert
Messmer,"RENAISSANCE: A Real-Time Freeway Network Traffic
Surveillance Tool." IEEE 9th International Intelligent Transportation
Systems Conference, September 17-20, 2006.
[6] Redmill, A. Keith, and U.Ozguner, "VATSIM: A Vehicle and Traffic
Simulator." IEEE 2nd Inetrnational Intelligent Transportation Systems
Conference, October 5-8, 2001.
[7] Fellendorf, Martin, "VISSIM: A Microscopic Simulation Tool to
Evaluate Actuated Signal Control Including Bus Priority." 64th Institute
of Transportation Engineers Annual Meeting, October 1994.
[8] Ch. L. Barrett, S. Eubank, K. Nagel, S. Rasmussen, J. Riordan, and M.
Wolinsky, "Issues in the Representation of Traffic Using Multi-
Resolution Cellular Automata", Los Alamos National Laboratory
Technical Report: LA/UR 95-2658.
[9] P. Wagner, "Traffic Simulations Using Cellular Automata: Comparison
with Reality", Traffic and Granular Flow, 1996.
[10] J. Esser, M. Schreckenberg, "Microscopic simulation of urban traffic
based on cellular automata", International Journal of Modern Physics C,
vol. 8, no. 5, pp. 1025-1036, 1997.
[11] J. Maroto, E. Delso, J. Flez, and J. M, Cabanellas, "Real-time traffic
simulation with a microscopic model", IEEE Transactions on Intelligent
Transportation Systems, vol. 7, no. 4, pp. 513-527, 2006.
[12] Q. Yang, and H. N. Koutsopoulos, "A microscopic traffic simulator for
evaluation of dynamic traffic management systems", Transp. Res. Part
C, vol. 4, no. 3, pp. 113-129, 1996.
[13] G. I. Duncan, "PARAMICS wide area microscopic simulation of ATT
and traffic management", Proc. 28th ISATA Conf., Stuttgart, Germany,
pp. 475-484, 1995.
[14] J. Barcelo, J. F. Ferrer, D. Garcia, M. Florian, and L. E.Saux, "The
parallelization of AIMSUN2 microscopic simulator for ITS
applications", Proc. 3rd World Congr. Intell. Transp. Syst., Orlando, FL,
1996.
[15] J. Li, andY. Xu, "Dependence patterns associated with the fundamental
diagram: a copula function approach", Journal of Zhejiang University-
Science A, vol. 11, no. 1, pp. 18-24, 2010.
[16] H. Greenberg, "An analysis of traffic flow". Operations Research, vol. 7,
pp. 79-85, 1959.
[17] G. F. Newell, "Instability in Dense Highway Traffic", Proceedings of
2nd International Symposium on the Theory of Road Traffic Flow, pp.
73-83, 1965.
[1] J. Miller, and E. Horowitz, "FreeSim - A Free Real-Time Freeway
Traffic Simulator", Proc. IEEE Conference on Intelligent Transportation
Systems, ITSC, pp. 18-23, 2007.
[2] Owen, E. Larry, Y. Zhang, L. Rao, and G. McHale, "Traffic Flow
Simulation Using CORSIM." Proceedings of the 2000 Winter
Simulation Conference, December 10-13, 2000.
[3] Q. Yang, and H. N. Koutsopoulos, "A Microscopic Traffic Simulator for
Evaluation of Dynamic Traffic Management Systems." Transpn Res.,
Part C, Volume 4, Number 3, 1996.
[4] Cameron, Gordon, J.N. Wylie, and D. McArthur, "Paramics: Moving
Vehicles on the Connection Machine." Proceedings of the 1994
ACM/IEEE Conference on Supercomputing, November 14-19, 1994.
[5] Wang, Yibing, MarkosPapageorgiou, Albert
Messmer,"RENAISSANCE: A Real-Time Freeway Network Traffic
Surveillance Tool." IEEE 9th International Intelligent Transportation
Systems Conference, September 17-20, 2006.
[6] Redmill, A. Keith, and U.Ozguner, "VATSIM: A Vehicle and Traffic
Simulator." IEEE 2nd Inetrnational Intelligent Transportation Systems
Conference, October 5-8, 2001.
[7] Fellendorf, Martin, "VISSIM: A Microscopic Simulation Tool to
Evaluate Actuated Signal Control Including Bus Priority." 64th Institute
of Transportation Engineers Annual Meeting, October 1994.
[8] Ch. L. Barrett, S. Eubank, K. Nagel, S. Rasmussen, J. Riordan, and M.
Wolinsky, "Issues in the Representation of Traffic Using Multi-
Resolution Cellular Automata", Los Alamos National Laboratory
Technical Report: LA/UR 95-2658.
[9] P. Wagner, "Traffic Simulations Using Cellular Automata: Comparison
with Reality", Traffic and Granular Flow, 1996.
[10] J. Esser, M. Schreckenberg, "Microscopic simulation of urban traffic
based on cellular automata", International Journal of Modern Physics C,
vol. 8, no. 5, pp. 1025-1036, 1997.
[11] J. Maroto, E. Delso, J. Flez, and J. M, Cabanellas, "Real-time traffic
simulation with a microscopic model", IEEE Transactions on Intelligent
Transportation Systems, vol. 7, no. 4, pp. 513-527, 2006.
[12] Q. Yang, and H. N. Koutsopoulos, "A microscopic traffic simulator for
evaluation of dynamic traffic management systems", Transp. Res. Part
C, vol. 4, no. 3, pp. 113-129, 1996.
[13] G. I. Duncan, "PARAMICS wide area microscopic simulation of ATT
and traffic management", Proc. 28th ISATA Conf., Stuttgart, Germany,
pp. 475-484, 1995.
[14] J. Barcelo, J. F. Ferrer, D. Garcia, M. Florian, and L. E.Saux, "The
parallelization of AIMSUN2 microscopic simulator for ITS
applications", Proc. 3rd World Congr. Intell. Transp. Syst., Orlando, FL,
1996.
[15] J. Li, andY. Xu, "Dependence patterns associated with the fundamental
diagram: a copula function approach", Journal of Zhejiang University-
Science A, vol. 11, no. 1, pp. 18-24, 2010.
[16] H. Greenberg, "An analysis of traffic flow". Operations Research, vol. 7,
pp. 79-85, 1959.
[17] G. F. Newell, "Instability in Dense Highway Traffic", Proceedings of
2nd International Symposium on the Theory of Road Traffic Flow, pp.
73-83, 1965.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:60719", author = "Tuong Huan Nguyen and Quoc Bao Vo and Hai L. Vu", title = "A Traffic Simulation Package Based on Travel Demand", abstract = "In this paper we propose a new traffic simulation
package, TDMSim, which supports both macroscopic and
microscopic simulation on free-flowing and regulated traffic systems.
Both simulators are based on travel demands, which specify the
numbers of vehicles departing from origins to arrive at different
destinations. The microscopic simulator implements the carfollowing
model given the pre-defined routes of the vehicles but also
supports the rerouting of vehicles. We also propose a macroscopic
simulator which is built in integration with the microscopic simulator
to allow the simulation to be scaled for larger networks without
sacrificing the precision achievable through the microscopic
simulator. The macroscopic simulator also enables the reuse of
previous simulation results when simulating traffic on the same
networks at later time. Validations have been conducted to show the
correctness of both simulators.", keywords = "Macroscopic, Microscopic, Simulation, Traffic,
Travel demand, Fundamental diagrams.", volume = "6", number = "1", pages = "69-10", }