Intelligent Traffic Light Flow Control System Using Wireless Sensors Networks

Vehicular traffic is continuously increasing around the world, especially in large urban areas. The resulting congestion has become a major concern to transportation specialists and decision makers. The existing methods for traffic management, surveillance and control are not adequately efficient in terms of performance, cost, maintenance, and support. In this paper, the design of a system that utilizes and efficiently manages traffic light controllers is presented. In particular, we present an adaptive traffic control systembased on a new traffic infrastructure using Wireless Sensor Network (WSN) and using new techniques for controlling the traffic flow sequences. These techniques are dynamically adaptive to traffic conditions on both single and multiple intersections. A WSN is used as a tool to instrument and control traffic signals roadways, while an intelligent traffic controller is developed to control the operation of the traffic infrastructure supported by the WSN. The controller embodies traffic system communication algorithm (TSCA) and the traffic signals time manipulation algorithm (TSTMA). Both algorithms are able to provide the system with adaptive and efficient traffic estimation represented by the dynamic change in the traffic signals' flow sequence and traffic variation. Simulation results show the efficiency of the proposed scheme in solving traffic congestion in terms of the average waiting time and average queue length on the isolated (single) intersection and efficient global traffic flow control on multiple intersections. A test bed was also developed and deployed for real measurements. The paper concludes with some future highlights and useful remarks.

[1]  Ciro D'Apice,et al.  Queueing Theory , 2003, Operations Research.

[2]  Jamal N. Al-Karaki,et al.  Energy-Centric Routing in Wireless Sensor Networks , 2006, 11th IEEE Symposium on Computers and Communications (ISCC'06).

[3]  Zeeshan Iqbal,et al.  Self-Organizing Wireless Sensor Networks For Inter-Vehicle Communication , 2006 .

[4]  Qingyan Yang,et al.  Using Bluetooth and sensor networks for intelligent transportation systems , 2004, Proceedings. The 7th International IEEE Conference on Intelligent Transportation Systems (IEEE Cat. No.04TH8749).

[5]  Sinem Coleri,et al.  Traffic Measurement and Vehicle Classification with a Single Magnetic Sensor , 2004 .

[6]  Bart De Schutter,et al.  Optimal Traffic Light Control for a Single Intersection , 1999, Eur. J. Control.

[7]  Ara N. Knaian,et al.  A Wireless Sensor Network for Smart Roadbeds and Intelligent Transportation Systems , 2000 .

[8]  Tu Shiliang,et al.  A realtime dynamic traffic control system based on wireless sensor network , 2005, 2005 International Conference on Parallel Processing Workshops (ICPPW'05).

[9]  Ian F. Akyildiz,et al.  Sensor Networks , 2002, Encyclopedia of GIS.

[10]  I. Adan,et al.  QUEUEING THEORY , 1978 .

[11]  P. Varaiya,et al.  Sensor Networks for Monitoring Traffic , 2004 .

[12]  Erik Minge,et al.  EVALUATION OF PORTABLE NON-INTRUSIVE TRAFFIC DETECTION SYSTEM , 2005 .

[13]  Jiannong Cao,et al.  Protocols for Traffic Safety Using Wireless Sensor Network , 2007, ICA3PP.

[14]  Hongchi Shi,et al.  Adaptive Traffic Light Control with Wireless Sensor Networks , 2007, 2007 4th IEEE Consumer Communications and Networking Conference.