• Journal of Internet Computing and Services
    ISSN 2287 - 1136(Online) / ISSN 1598 - 0170 (Print)
    http://jics.or.kr/

Car Collision Verification System for the Ubiquitous Parking Management


Romeo Mark A. Mateo, Hyun-Ho Yang, Jae-Wan Lee, Journal of Internet Computing and Services, Vol. 12, No. 5, pp. 101-112, Oct. 2011
Full Text:
Keywords: Parking management system, Wireless Sensor Network, collision detection, video tracking

Abstract

Most researches in WSN-based parking management system used wireless sensors to monitor the events in a car parking area. However, the problem of car collisions in car parks was not discussed by previous researches. The car position details over time are vital in analyzing a collision event. This paper proposes a collision verification method to detect and to analyze the collision event in the parking area, and then notifies car owners. The detection uses the information from motion sensors for comprehensive details of position and direction of a moving car, and the verification processes an object tracking technique with a fast OBB intersection test. The performance tests show that the location technique is more accurate with additional sensors and the OBB collision test is faster compared to a normal OBB intersection test.


Statistics
Show / Hide Statistics

Statistics (Cumulative Counts from November 1st, 2017)
Multiple requests among the same browser session are counted as one view.
If you mouse over a chart, the values of data points will be shown.


Cite this article
[APA Style]
Romeo Mark A. Mateo, Hyun-Ho Yang, & Jae-Wan Lee (2011). Car Collision Verification System for the Ubiquitous Parking Management. Journal of Internet Computing and Services, 12(5), 101-112.

[IEEE Style]
R. M. A. Mateo, H. Yang and J. Lee, "Car Collision Verification System for the Ubiquitous Parking Management," Journal of Internet Computing and Services, vol. 12, no. 5, pp. 101-112, 2011.

[ACM Style]
Romeo Mark A. Mateo, Hyun-Ho Yang, and Jae-Wan Lee. 2011. Car Collision Verification System for the Ubiquitous Parking Management. Journal of Internet Computing and Services, 12, 5, (2011), 101-112.