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Decimation-in-time Search Direction Algorithm for Displacement Prediction of Moving Object  

Lim Kang-mo (청주대학교 대학원 전자공학부)
Lee Joo-shin (청주대학교 전자정보공학부)
Publication Information
Journal of the Korea Institute of Information and Communication Engineering / v.9, no.2, 2005 , pp. 338-347 More about this Journal
Abstract
In this paper, a decimation-in-time search direction algorithm for displacement prediction of moving object is proposed. The initialization of the proposed algorithm for moving direction prediction is performed by detecting moving objects at sequential frames and by obtaining a moving angle and a moving distance. A moving direction of the moving object at current frame is obtained by applying the decimation-in-time search direction mask. The decimation-in-tine search direction mask is that the moving object is detected by thinning out frames among the sequential frames, and the moving direction of the moving object is predicted by the search mask which is decided by obtaining the moving angle of the moving object in the 8 directions. to examine the propriety of the proposed algorithm, velocities of a driving car are measured and tracked, and to evaluate the efficiency, the proposed algorithm is compared to the full search algorithm. The evaluated results show that the number of displacement search times is reduced up to 91.8$\%$ on the average in the proposed algorithm, and the processing time of the tracking is 32.1ms on the average.
Keywords
decimation-in-time search direction; displacement; prediction; tracking;
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1 I. Haritaoglu, D. Harwood, L. Davis, 'W4: who? when? where? what? A real time system for detecting and tracking people', in Proc. 3rd International Conference on Automatic Face and Gesture Recognition, Nara, Japan, pp. 222-227, 1998
2 D. P. Huttenlocher, J. J. Noh, W. J. Rucklidge, 'Tracking non-rigid objects in complex scenes', in 4th International Conf. on Computer Vision, Berlin, Germany, pp. 93-101, May 1993
3 J. C. Clarke, A. Zisserman, 'Detection and Tracking of Independent Motion', Image and Vision Computing, pp. 565-572, 1996
4 A. Broggi, M. Bertozzi, A. Fascioli, M. Sechi, 'Shape-based pedestrian detection', in Proc. IEEE Intelligent Vehicles Symposium 2000, Dearborn Mi USA, pp. 215-220, 3-5 Oct, 2000
5 T. Meier, K. N. Ngan, 'Automatic video sequence segmentation using object tracking', IEEE TENCON-Speech and Image Technologies for Computing and Telecommunications, pp. 283-286, 1997
6 G. L. Foresti, 'A Real-Time System for Video Surveillance of Unattended Outdoor Environments', IEEE Trans. on Circuit and Systems for Video Tech., vol. 8 no. 6, pp. 142-145, Oct. 1998
7 Y. Mae, S. Yamamoto, Miura, 'Optical Flow Object Tracking by System', Proc. 2nd Japan-France Congress on Mechatronics, vol. 2, pp. 545-548, 1994
8 V. Ruiz, V. fotopoulos, A. N. Skodras, A. G. Constantinides, 'An $8{\times}8-Block$ Based Motion Estimation Using Kalman Filter', ICIP 97, pp 140-143, July 1997
9 C. Stauffer, W. Crimson. 'Adaptive background mixture models for real-time tracking', in Proc. IEEE Conf. on Computer Vision and Pattern Recognition, Fort Collins, CO, pp. 246-252, 1999
10 C. Wren, A. Azarbayejani, T. Darrell, A. Pentland, 'Pfinder: Real-time tracking of the human body', IEEE Transactions on Pattern Analysis and Machine Intelligence Vol. 19, no. 7, pp. 780-785, 1997   DOI   ScienceOn