Optimal distance- and time-dependent area-based pricing with the Network Fundamental Diagram
Ziyuan Gu, Sajjad Shafiei, Zhiyuan Liu, Meead Saberi

TL;DR
This paper develops and evaluates distance- and time-dependent area-based toll models using the Network Fundamental Diagram to optimize traffic flow and congestion in large-scale networks through simulation-based methods.
Contribution
It introduces novel joint distance-time and distance-delay toll models and a simulation-based optimization framework for dynamic traffic pricing in large networks.
Findings
Distance toll prevents congestion but causes uneven path congestion.
Joint tolls reduce hysteresis loop size in the NFD.
Framework can be extended to time-dependent pricing.
Abstract
Given the efficiency and equity concerns of a cordon toll, this paper proposes a few alternative distance-dependent area-based pricing models for a large-scale dynamic traffic network. We use the Network Fundamental Diagram (NFD) to monitor the network traffic state over time and consider different trip lengths in the toll calculation. The first model is a distance toll that is linearly related to the distance traveled within the cordon. The second model is an improved joint distance and time toll (JDTT) whereby users are charged jointly in proportion to the distance traveled and time spent within the cordon. The third model is a further improved joint distance and delay toll (JDDT) which replaces the time toll in the JDTT with a delay toll component. To solve the optimal toll level problem, we develop a simulation-based optimization (SBO) framework. Specifically, we propose a…
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
