Estimation of urban network capacity with second-best constraints for multimodal transport systems

Zhiyuan Liu*, Zewen Wang, Qixiu Cheng, Ruyang Yin

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

30 Citations (Scopus)

Abstract

Transport network capacity enhancement is a significant aspect of urban transport planning and demand management, and a suitable measurement of the network capacity is of considerable importance. In this paper, the network capacity with second-best constraints (NCSC) is investigated to meet some specific development requirements of urban transport networks. Herein, the network capacity is restricted to an inferior “second-best solution”, due to various concerns/constraints regarding the public transport mode share, serviceability, and emissions, etc. For the sake of presentation, these constraints are termed as second-best constraints, and the NCSC problem can also be referred as second-best network capacity (SBNC) problem. A bi-level model is formulated to analyse the NCSC problem. The upper-level model maximizes the total origin-destination (OD) demand, which incorporates the second-best constraints into consideration. The lower-level model is a transport network equilibrium model, which measures the network performance under a given OD demand pattern. To better investigate some important second-best constraints (e.g., public transport mode share) and also the demand elasticity, the modelling framework is extended to a multimodal transport network. An exact solution method is developed for the NCSC problem; wherein, a modified improved gradient projection (MIGP) algorithm is designed for the lower-level multimodal flow equilibrium problem, and a tailored sensitivity analysis-based (SAB) method is employed for solving the NCSC problem. The proposed models and solution methods are verified by numerical examples, demonstrating that NCSC can be an efficient tool for transport planning and management.

Original languageEnglish
Pages (from-to)276-294
Number of pages19
JournalTransportation Research Part B: Methodological
Volume152
DOIs
Publication statusPublished - Oct 2021

Bibliographical note

Funding Information:
This study is supported by the National Key Research and Development Program of China (No. 2018YFB1600900 ), and the Distinguished Young Scholar Project (No. 71922007 ) and General Projects (No. 71771050 ) of the National Natural Science Foundation of China .

Publisher Copyright:
© 2021 Elsevier Ltd

Keywords

  • Bi-level model
  • Gradient projection
  • Multimodal network
  • Network capacity
  • Second-best constraints
  • Sensitivity analysis-based method

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