Skip to main content
Article thumbnail
Location of Repository

Bi-objective bimodal urban road network design using hybrid metaheuristics

By Elnaz Miandoabchi, Reza Zanjirani Farahani and Szeto Wai Yuen
Topics: civil, business
Publisher: Physica-Verlag GmbH und Co.
Year: 2012
OAI identifier:

Suggested articles


  1. (1975). Adaptation in natural and artificial systems.
  2. (2001). Bilevel programming applied to optimising urban transportation. Transp Res B 35(1):41–70 Clerc M
  3. (2002). Capacity reliability of a road network: an assessment methodology and numerical results.
  4. (2006). Comparing backhauling strategies in vehicle routing using ant colony optimization. doi
  5. (2000). Comparing inertia weights and constriction factors in particle swarm optimization. In:
  6. (1995). Comput Aided Civil Infrastructure Eng (submitted) Migdalas A
  7. Expert Syst Appl Int J 37(2):1608–1619 Chiou SW (2008a) A hybrid approach for optimal design of signalized road Network. Appl Math Model 32(2):195–207 Chiou SW (2008b) A non-smooth model for signalized road network design problems.
  8. (1979). Methods for combining modal split and equilibrium assignment models.
  9. (1984). Network design and transportation planning: models and algorithms.
  10. (2003). Network design: selection and design of links and facility location.
  11. (1989). On the optimal strongly connected orientations of city street graphs: II. Two east–west avenues or north–south streets. doi
  12. (1982). Oper Res 182(2):578–596 Poorzahedy H,
  13. (1984). Rec 2089:93–100 Nagurney A
  14. (2009). Robust improvement schemes for road networks under demand uncertainty. doi
  15. (2005). Sensitivity analysis of stochastic user equilibrium flows in a bi-modal network with application to optimal pricing. doi
  16. (1972). The traffic assignment problem for multiclass-user transportation networks.
  17. (2002). Using hybrid metaheuristics for the one-way and two-way network design problem.

To submit an update or takedown request for this paper, please submit an Update/Correction/Removal Request.