A Switching-Based Adaptive Dynamic Programming Method to Optimal Traffic Signaling
Di Liu (Southeast University)
Wenwu Yu (Southeast University)
S Baldi (Southeast University, TU Delft - Team Bart De Schutter)
Jinde Cao (Southeast University)
Wei Huang (Southeast University)
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Abstract
The work presented in this paper concerns a switching-based control formulation for multi-intersection and multiphase traffic light systems. A macroscopic traffic flow modeling approach is first presented, which is instrumental to the development of a model-based and switching-based optimization method for traffic signal operation, in the framework of adaptive dynamic programming (ADP). The main advantage of the switching-based formulation is its capability to determine both 'when' to switch and 'which' mode to switch on without the need to use the cycle-based average flow approximation typical of state-of-the-art formulations. In addition, the framework can handle different cycle times across intersections without the need for synchronization constraints and, moreover, minimum dwell-time constraints can be directly enforced to comply with minimum green/red times in each phase. The simulation experiments on a multi-intersection and multiphase traffic light systems are presented to show the effectiveness of the method.