The Open Electrical & Electronic Engineering Journal

2014, 8 : 620-624
Published online 2014 December 31. DOI: 10.2174/1874129001408010620
Publisher ID: TOEEJ-8-620

Motion Tracking and Testing Based on Improved Surendra Algorithm

Ji Yao and Deepa Singh
School of Automation of Xi'an University of Posts and Telecommunication, Xi'an Shannxi, 710121, China.

ABSTRACT

Recently, due to the gradual mature of the development of computer vision, video-based monitoring and control system has become a classic practice in the field of computer vision. Traffic detection and tracking technology in intelligent video surveillance system is one of the branches of computer vision, which has gradually become a hot and new research field. Through analysis and summary of the existing detection and tracking technology, this study draws a set of target detection and tracking program at the perspective of taking photos with a single fixed camera on the road. The target in the program is the vehicle on the road. The key point of the program is to detect the target, and another is tracking. The main purpose of this study is to detect and track the moving vehicles on the road in the condition of a single fixed camera. This detection program uses the improved surendra algorithm, which is a more advanced algorithm in the algorithms of moving target detection. In all the algorithms, such as background subtraction method and the adjacent frame difference method, the improved surendra algorithm is more excellent than them. The algorithm is based on the mixed Gaussian model method and the improved adjacent frame difference. Experiment shows that the algorithm is able to track and detect the target vehicle accurately indeed. And the complexity, real-time and robustness of the algorithm are very consistent with the system design requirements of the study, so the adoption of the algorithm and the implementation of the detection system design of this study can track and detect the target vehicle well.

Keywords:

Computer vision field, intelligent surveillance system, tracking of target, detection of target.