[1] |
Friesz, T. L.; Bernstein, D.; Mehta, N. J.; Tobin, R. L.; Ganjalizadeh, S.: Day-to-day dynamic network disequilibria and idealized traveler information systems. Operations research 42, 1120-1136 (1994) · Zbl 0823.90037 |

[2] |
Hawas, Y. E., & Mahmassani, H. S. (1995). A decentralized scheme for real-time route guidance in vehicular traffic networks. Proceedings of the second world congress on intelligent transport systems, Yokohama, Japan. |

[3] |
Horowitz, J. L.: The stability of stochastic equilibrium in a two-link transportation network. Transportation research, part B 18, 12-28 (1984) |

[4] |
Khalil, H. K.: Nonlinear systems. (1996) · Zbl 0842.93033 |

[5] |
Mahmassani, H. S., Peeta, S., Hu, T., & Ziliaskopoulos, A. (1993). Dynamic traffic assignment with multiple user classes for real-time ATIS/ATMS applications. In S. Yagar, & A. Santiago (Eds.), Large urban systems (pp. 91-114) Washington DC: USDOT. |

[6] |
Nagurney, A.; Zhang, D.: Projected dynamical systems and variational inequalities with applications. (1996) · Zbl 0865.90018 |

[7] |
Nagurney, A.; Zhang, D.: Projected dynamical systems in the formulation, stability analysis, and computation of fixed-demand traffic network equilibria. Transportation science 31, 147-158 (1997) · Zbl 0886.90072 |

[8] |
Pavlis, Y.; Papageorgiou, M.: Simple decentralized feedback strategies for route guidance in traffic networks. Transportation science 33, 264-278 (1999) · Zbl 1004.90013 |

[9] |
Peeta, S. (1994). System optimal dynamic traffic assignment in congested networks with advanced information systems. Ph.D. dissertation, The University of Texas at Austin. |

[10] |
Peeta, S.; Mahmassani, H. S.: Multiple user classes real-time traffic assignment for on-line operationsa rolling horizon solution framework. Transportation research, part C 3, No. 2, 83-98 (1995) |

[11] |
Peeta, S.; Mahmassani, H. S.: System optimal and user equilibrium time-dependent traffic assignment in congested networks. Annals of operations research 60, 81-113 (1995) · Zbl 0839.90035 |

[12] |
Peeta, S.; Zhou, C.: A hybrid deployable dynamic traffic assignment framework for robust online route guidance. Networks and spatial economics 2, No. 3, 269-294 (2002) |

[13] |
Peeta, S.; Ziliaskopoulos, A. K.: Foundations of dynamic traffic assignment: the past, the present and the future. Networks and spatial economics 1, No. 3/4, 233-266 (2001) |

[14] |
Sheffi, Y.: Urban transportation networks: equilibrium analysis with mathematical programming methods. (1985) |

[15] |
Smith, M. J.: Existence, uniqueness, and stability of traffic equilibria. Transportation research, part B 13, 295-304 (1979) |

[16] |
Smith, M. J.: The stability of a dynamic model of traffic assignment--an application of a method of Lyapunov. Transportation science 18, 245-252 (1984) |

[17] |
Wardrop, J. G. (1952). Some theoretical aspects of road traffic research. Proceedings of the institution of civil engineers, Part II (pp. 325-378). |

[18] |
Watling, D.: Stability of the stochastic equilibrium assignment problem: A dynamical systems approach. Transportation research, part B 33, 281-312 (1999) |

[19] |
Yang, T.-H. (2001). Deployable stable traffic assignment models for control in dynamic traffic networks: A dynamical systems approach. Ph.D. dissertation, Purdue University. |

[20] |
Zhang, D.; Nagurney, A.: On the stability of projected dynamical systems. Journal of optimization theory and applications 85, 97-124 (1995) · Zbl 0837.93063 |

[21] |
Zhang, D.; Nagurney, A.: On the local and global stability of a travel route choice adjustment process. Transportation research, part B 30, 245-262 (1996) |