This study presents a method that combines travel‐time estimation and adaptive traffic signal control. The proposed method explores the concept of vehicle‐to‐infrastructure communication, through which real‐time vehicle localisation data become available to traffic controllers. This provides opportunity to frequently sample vehicle location and speed for online travel‐time estimation. The control objective is to minimise travel time for vehicles in the system. The proposed method is based on approximate dynamic programming, which allows the controller to learn from its own performance progressively. The authors use micro‐traffic simulation to evaluate the control performance against benchmark control methods in an idealistic environment, where errors in sampling vehicle location and speed are not considered. The results show that the proposed method outperforms benchmarking methods substantially and consistently.
Vehicle‐to‐infrastructure communication‐based adaptive traffic signal control
IET Intelligent Transport Systems ; 7 , 3 ; 351-360
2013-09-01
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
real‐time vehicle localisation data , vehicle location sampling , travel time minimisation , approximation theory , online travel‐time estimation , approximate dynamic programming , road traffic control , sampling methods , adaptive control , vehicle‐to‐infrastructure communication‐based adaptive traffic signal control , performance evaluation , dynamic programming , road vehicles , minimisation
Vehicle-to-infrastructure communication-based adaptive traffic signal control
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