一种受生物启发的交通网络均衡分配方法

A Bio-Inspired Approach to Traffic Network Equilibrium Assignment Problem

IEEE Transactions on Cybernetics · 2017
被引 45
ABS 3

中文导读

该文借鉴黏菌的路径寻优模型,提出一种求解交通网络用户均衡分配的新算法,并通过数值实验证明其优于Frank-Wolfe等传统方法。

Abstract

Finding an equilibrium state of the traffic assignment plays a significant role in the design of transportation networks. We adapt the path finding mathematical model of slime mold Physarum polycephalum to solve the traffic equilibrium assignment problem. We make three contributions in this paper. First, we propose a generalized Physarum model to solve the shortest path problem in directed and asymmetric graphs. Second, we extend it further to resolve the network design problem with multiple source nodes and sink nodes. At last, we demonstrate that the Physarum solver converges to the user-optimized (Wardrop) equilibrium by dynamically updating the costs of links in the network. In addition, convergence of the developed algorithm is proved. Numerical examples are used to demonstrate the efficiency of the proposed algorithm. The superiority of the proposed algorithm is demonstrated in comparison with several other algorithms, including the Frank-Wolfe algorithm, conjugate Frank-Wolfe algorithm, biconjugate Frank-Wolfe algorithm, and gradient projection algorithm.

交通网络均衡分配优化算法生物启发计算