Reference:
S. Lin,
B. De Schutter,
Y. Xi, and
H. Hellendoorn,
"Efficient network-wide model-based predictive control for urban
traffic networks," Transportation Research Part C, vol. 24,
pp. 122-140, Oct. 2012.
Abstract:
Traffic congestion has become a stringent issue in urban areas.
Traffic control systems are designed to make a better use of the
existing traffic infrastructures in order to improve traffic
conditions. Along with the fast development of the transportation
infrastructures, traffic networks become larger and more complex.
Therefore, network-wide traffic control systems that can coordinate
the whole network and improve the utilization of the entire traffic
infrastructure, are highly required. In this paper, a structured
network-wide traffic controller is presented based on Model Predictive
Control (MPC) theory. Two macroscopic models are proposed to be the
prediction model of the MPC controller. One is more accurate, but
correspondingly requires more computation time; the other sacrifices a
certain amount of accuracy, but is computationally much more
efficient. Based on these two models, MPC controllers are developed.
Simulation results show that the MPC controllers are capable of
coordinating an urban traffic network, especially in the situations
that the traffic flow is not spread evenly through the network.
Through reducing the prediction model, the corresponding MPC
controller exhibits less on-line computational burden, and thus
becomes more applicable in practice. Therefore, it becomes possible
for the control system to deal with complex urban road networks more
efficiently.