Freeway ramp metering by macroscopic traffic scheduling with particle swarm optimization

Abstract

In this paper, the networked freeway ramp metering problem is addressed using a novel macroscopic traffic scheduling approach. In the proposed method, reference mainstream densities are macroscopically scheduled for each local ramp metering controller. These reference density signals are tracked by the corresponding local controllers using the feedback based algorithm. The considered time is divided into macroscopic time periods. Within each period, reference mainstream density signals are scheduled for local controllers. The optimal networked ramp metering problem is considered as an optimization problem, where these reference signals are regarded as decision variables. The particle swarm optimization (PSO) algorithm is used to find the optimal reference signals, which minimizes the total time spent (TTS) by vehicles within the whole network. The efficiency of the proposed method is demonstrated in case studies. Furthermore, the proposed approach has the advantages of structural simplicity and low implementation cost, and the capability of local feedback based strategy in dealing with realtime traffic conditions is retained.