Title :
Nonlinear optimization for freeway control using variable-speed signaling
Author :
Alessandri, Angelo ; Di Febbraro, Angela ; Ferrara, Antonella ; Punta, Elisabetta
Author_Institution :
IAN, CNR, Genova, Italy
fDate :
11/1/1999 12:00:00 AM
Abstract :
A traffic control problem with a dynamic macroscopic model is considered by means of simulation. An optimal control problem is stated for variable-speed signaling in order to improve traffic behavior near congestion. A traffic state estimator based on the extended Kalman filter is designed to generate real-time estimates of the traffic density and, by means of these, to activate speed signaling. The variable-speed signaling control law is closed loop and is set by minimizing (or maximizing) a performance criterion. The optimization procedure is based on Powell´s method, and its off-line execution is computationally tractable on low-cost computers too. Simulation results demonstrate the efficacy of the proposed approach for preventing and reducing congestion
Keywords :
Kalman filters; closed loop systems; optimal control; road traffic; signalling; state estimation; traffic control; velocity control; Powell´s method; closed loop control; congestion reduction; extended Kalman filter; freeway control; nonlinear optimization; optimal control problem; real-time traffic density estimates; speed signaling activation; traffic behavior improvement; traffic control problem; traffic state estimator; variable-speed signaling; Computational modeling; Computerized monitoring; Optimal control; Optimization methods; Regulators; Safety; Signal design; Signal generators; State estimation; Traffic control;
Journal_Title :
Vehicular Technology, IEEE Transactions on
