DocumentCode
3175422
Title
SVM based intelligent traffic control and simulation for urban expressway and periphery freeway
Author
Feng, Chen ; Yuanhua, Jia ; Jian, Li ; Guchang, Ao
Author_Institution
Sch. of Traffic & Transp., Beijing Jiaotong Univ., Beijing, China
fYear
2010
fDate
29-30 Oct. 2010
Firstpage
573
Lastpage
578
Abstract
Urban periphery road network is a special type of roadwork pattern that scatters and distributes around the specific zone of metropolitan and in that contains different grade and functional roads of arterial road, urban freeway and expressway. Urban traffic flow and inter-cities flow transform and divert intensively and massively in this zone, also bring traffic jams and incidents frequently. Traffic control is necessary. Coordinated traffic control is a new development where the control problem is to find the combination of control measures that result in the best road performance. The problems of multi-objective coordinated metering and evaluation for local ramp is considered. This paper discusses the optimal coordination of mainline and ramp, a modified ramp latency model is posed using the method of queuing theory, and a ramp control with better mechanism compare to artificial neural network using radical based function-support vector machine algorithm is designed. With in-situ traffic flow data of high-density period, three known and the novel methodologies are compared, and the preliminary simulation-based investigation of the local ramp coordinated metering for urban expressway and related periphery freeway using these methodologies demonstrates the comparative control efficiency and accuracy, especially in the improvement of certain objective.
Keywords
automated highways; queueing theory; radial basis function networks; support vector machines; traffic engineering computing; SVM based intelligent traffic control; artifical neural network; multiobjective coordinated metering; periphery freeway; queuing theory; radial based function algorithm; ramp control; ramp latency model; traffic simulation; urban expressway; urban periphery road network; Microscopy; Support vector machines; ANN; Evaluation; RBF; Ramp; SVM; Traffic control;
fLanguage
English
Publisher
ieee
Conference_Titel
Artificial Intelligence and Education (ICAIE), 2010 International Conference on
Conference_Location
Hangzhou
Print_ISBN
978-1-4244-6935-2
Type
conf
DOI
10.1109/ICAIE.2010.5641459
Filename
5641459
Link To Document