Title :
A Wireless Accelerometer-Based Automatic Vehicle Classification Prototype System
Author :
Wenteng Ma ; Xing, Daniel ; McKee, Adam ; Bajwa, Ravneet ; Flores, Christopher ; Fuller, Benjamin ; Varaiya, Pravin
Author_Institution :
Sensys Networks, Inc., Berkeley, CA, USA
Abstract :
Automatic vehicle classification (AVC) systems provide data about vehicle classes that are used for many purposes. This paper describes a prototype axle count and spacing AVC system using wireless accelerometers and magnetometers. The accelerometers detect vehicle axles, and the magnetometers report vehicle arrivals and departures and estimate speed. The prototype system is installed on Interstate 80 at Pinole, CA, USA, and tested under various traffic conditions. Video images and reports from a nearby commercial weigh-in-motion station provide ground truth to evaluate the performance of the system, including classification, axle spacing, and vehicle counts. The results show that the prototype AVC system is reliable in classifying vehicles even under congested traffic with accuracy of 99%.
Keywords :
accelerometers; axles; image classification; image motion analysis; magnetometers; performance evaluation; road traffic; wireless sensor networks; Interstate 80; Pinole CA USA; magnetometer; performance evaluation; prototype axle count; road traffic; spacing AVC system; speed estimation; vehicle axle detection; video imaging; weigh-in-motion station; wireless accelerometer-based automatic vehicle classification prototype system; Accelerometers; Axles; Magnetometers; Prototypes; Vehicles; Wireless communication; Wireless sensor networks; Accelerometer; automatic vehicle classification (AVC); axle count; axle spacing; magnetometer; wireless sensor;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2013.2273488
