A dynamic traffic assignment model for highly congested urban networks

Author(s)

Ben-Akiva, Moshe E.; Gao, Song; Wei, Zheng; Wen, Yang

Abstract

The management of severe congestion in complex urban networks calls for dynamic traffic assignment (DTA) models that can replicate real traffic situations with long queues and spillbacks. DynaMIT-P, a mesoscopic traffic simulation system, was enhanced and calibrated to capture the traffic characteristics in a sub-area of Beijing, China. The network had 1698 nodes and 3180 directed links in an area of around 18 square miles. There were 2927 non-zero origin–destination (OD) pairs and around 630,000 vehicles were simulated over 4 h of the morning peak. All demand and supply parameters were calibrated simultaneously using sensor counts and floating car travel time data. Successful calibration was achieved with the Path-size Logit route choice model, which accounted for overlapping routes. Furthermore, explicit representations of lane groups were required to properly model traffic delays and queues. A modified treatment of acceptance capacity was required to model the large number of short links in the transportation network (close to the length of one vehicle). In addition, even though bicycles and pedestrians were not explicitly modeled, their impacts on auto traffic were captured by dynamic road segment capacities.

Date issued

2012-03

URI

http://hdl.handle.net/1721.1/99219

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering

Journal

Transportation Research Part C: Emerging Technologies

Publisher

Elsevier

Citation

Ben-Akiva, Moshe E., Song Gao, Zheng Wei, and Yang Wen. “A Dynamic Traffic Assignment Model for Highly Congested Urban Networks.” Transportation Research Part C: Emerging Technologies 24 (October 2012): 62–82.

Version: Author's final manuscript

ISSN

0968090X