Article ID: | iaor20133576 |
Volume: | 32 |
Issue: | 4 |
Start Page Number: | 89 |
End Page Number: | 102 |
Publication Date: | Jul 2013 |
Journal: | Transportation Research Part C |
Authors: | Guan Wei, Ma Shoufeng, He Zhengbing |
Keywords: | simulation: applications, vehicle routing & scheduling |
Most of existing route guidance strategies achieves user optimal equilibrium by comparing travel time. Measuring travel time, however, might be uneasy on an urban road network. To contend with the issue, the paper mainly considers easily obtained inflow and outflow of a link and road capacity as input, and proposes a route guidance strategy for a single destination road network based on the determination of free‐flow or congested conditions on alternative routes. An extended strategy for a complex network and a feedback approximation for avoiding forecast are further explored. Weaknesses of the strategy are also explicitly analyzed. To test the strategy, simulation investigations are conducted on two networks with multiple parallel routes. The results indicate that the strategy is able to provide stable splitting rates and to approximate user optimal equilibrium in different conditions, in particular when traffic demand is high. This strategy has potential to be applied in an urban road network due to its simplicity and easily obtained input data. The strategy is also applicable for single destination if some alternatives and similar routes are available.