This study evaluated the integrated strategy performance of vehicle route guidance and traffic signal control methods using traffic simulation. Based on the proposed optimal framework, three typical traffic signal control methods, including fixed signal control, actuated signal control, and regional coordinative signal control, were investigated via plugin applications, integrated with vehicle route guidance. The characteristics of vehicle route guidance approaches were captured using different guidance information updating frequencies and different user compliance rates. The average link occupancy was used as a representation of the network traffic states, and the network performance was measured by the total travel time. A total of 12,480 simulation runs were conducted. Based on the regression results, six integrated strategies were selected into a recommended integration strategy set. The transferability test shows that the performance of the integration strategy set is quite consistent.
Performance evaluation of integrated strategy of vehicle route guidance and traffic signal control using traffic simulation
IET Intelligent Transport Systems ; 12 , 7 ; 696-702
2018-09-01
7 pages
Article (Journal)
Electronic Resource
English
traffic control , fixed signal control , guidance information updating frequencies , vehicles , regression analysis , plugin applications , recommended integration strategy set , regional coordinative signal control , traffic signal control methods , user compliance rates , average link occupancy , digital simulation , traffic engineering computing , vehicle route guidance integrated strategy , control engineering computing , traffic simulation , actuated signal control , network traffic state representation , transferability test , performance evaluation
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