Abstract
In this paper, the traffic flow problem is converted into a system stability problem through variable substitution and a phase plane analysis method is presented for analyzing the complex nonlinear traffic phenomena. This method matches traffic congestion with the unstable system. So these theories and methods of stability can be applied directly to solve the traffic problem. Based on an anisotropic continuum model developed by Gupta and Katiyar (GK model), this paper uses this new method to describe various nonlinear phenomena due to different input and output conditions on ramps which were rarely studied in the past. The results show that the traffic phenomena described by the new method is consistent with that described by traditional methods. Moreover, the phase plane diagram highlights the unstable traffic phenomena we are chiefly concerned about and describes the variation of density or velocity with time or sections more clearly.
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References
Liu, D.W., Shi, Z.K., Ai, W.H.: Enhanced stability of car-following model upon incorporation of short-term driving memory. Commun. Nonlinear Sci. Numer. Simul. 47, 139–150 (2016)
Liu, D.W., Shi, Z.K., Ai, W.H.: A new car-following model accounting for impact of strong wind. Math. Probl. Eng. 1, 1–12 (2017)
Liu, D.W., Shi, Z.K., Ai, W.H.: An improved car-following model from the perspective of driver’s forecast behavior. Int. J. Mod. Phys. C 28(4), 1750046 (2017)
Lighthill, M.J., Whitham, G.B.: On kinematic waves: II. a theory of traffic flow on long crowed roads. In: Proceedings of the Royal Society of London, vol. 229, pp. 317–345 (1955)
Richards, P.I.: Shock waves on the highway. Oper. Res. 4, 42–51 (1956)
Ai, W.H., Shi, Z.K., Liu, D.W.: Bifurcation analysis of a speed gradient continuum traffic flow model. Phys. A: Stat. Mech. Appl. 437, 418–429 (2015)
Ai, W.H., Shi, Z.K., Liu, D.W.: Bifurcation analysis method of nonlinear traffic phenomena. Int. J. Mod. Phys. C 26, 1550111 (2015)
Ma, C.X., He, R.C.: Green wave traffic control system optimization based on adaptive genetic-artificial fish swarm algorithm. Neural Comput. Appl. 31(7), 2073–2083 (2019)
Yang, B., Kostkova, J., Flusser, J., Suk, T., Bujack, R.: Rotation invariants of vector fields from orthogonal moments. Pattern Recogn. 74, 110–121 (2018)
Gupta, A.K., Katiyar, V.K.: Analyses of shock waves and jams in traffic flow. J. Phys. A. 38, 4069–4083 (2005)
Shi, Z.K., Ai, W.H., Liu, D.W.: An improved macro model of traffic flow with the consideration of ramps and numerical tests. Math. Probl. Eng. 2015, 1–13 (2015)
Acknowledgments
The authors would like to thank of the anonymous referees and the editor for their valuable opinions. This work is partially supported by the National Natural Science Foundation of China under the Grant No. 61863032 and the China Postdoctoral Science Foundation Funded Project (Project No.: 2018M633653XB) and the “Qizhi” Personnel Training Support Project of Lanzhou Institute of Technology (Grant No. 2018QZ-11) and the National Natural Science Foundation of China under the Grant No. 11965019.
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Ai, W., Su, Y., Xing, T., Liu, D., Ma, H. (2020). Phase Plane Analysis of Traffic Phenomena with Different Input and Output Conditions. In: Shi, Z., Vadera, S., Chang, E. (eds) Intelligent Information Processing X. IIP 2020. IFIP Advances in Information and Communication Technology, vol 581. Springer, Cham. https://doi.org/10.1007/978-3-030-46931-3_20
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DOI: https://doi.org/10.1007/978-3-030-46931-3_20
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