Correlation degree between adjacent signalised intersections is considered as the most important component in subarea partition algorithm. In this study, contributing factors for subarea partition are selected by taking into consideration the differences with respect to cycle lengths, link length and path flow between upstream and downstream coordinated phases. Their impacts on performance index of subarea partition are further studied using numerical experiments. The study then proceeds to propose a correlation degree index (CI) as an alternative for the performance index in order to reduce the computational complexity. The relationship between CI and the contributing factors is established to predict the correlation degree. Finally, the model is validated using field survey data.
Modelling correlation degree between two adjacent signalised intersections for dynamic subarea partition
IET Intelligent Transport Systems ; 7 , 1 ; 28-35
2013-03-01
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
computational complexity reduction , link length , adjacent signalised intersections , correlation degree index , cycle lengths , CI , upstream coordinated phases , downstream coordinated phases , computational complexity , road traffic control , path flow , correlation methods , dynamic subarea partition algorithm , correlation degree modelling , performance index
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