Publication Detail
Delay-Based Traffic Signal Control for Throughput Optimality and Fairness at an Isolated Intersection
UCD-ITS-RP-18-89 Journal Article |
Suggested Citation:
Wu, Jian, Dipak Ghosal, Michael Zhang, Chen-Nee Chuah (2018) Delay-Based Traffic Signal Control for Throughput Optimality and Fairness at an Isolated Intersection. IEEE Conference on Vehicular Technology (VTC) 67 (2), 896 - 909
With the attractive feature of guaranteeing maximum network throughput, backpressure routing has been widely used in wireless communication networks. Motivated by the backpressure routing, in this paper, we propose a delay-based traffic signal control algorithm in transportation networks. We prove that this delay-based control achieves optimal throughput performance, same as the queue-based traffic signal control in the literature. However, a vehicle at a lane whose queue length remains very small may be excessively delayed under the queue-based signal control. Our delay-based backpressure control can deal with the excessive delays and achieve better fairness with respect to delay while still guaranteeing throughput optimality. Moreover, a general weighted control scheme combining the queue-based and delay-based schemes is also investigated, to provide a more flexible control according to the quality of service requirements. Numerical results explore their performance under both homogeneous and heterogeneous traffic scenarios.