Digital Signal Processing Reference
In-Depth Information
11. Dalal, N., Triggs, B.: Histograms of oriented gradients for human detection. In: IEEE Int.
Conf. on CVPR, vol. 1, pp. 886-893 (2005)
12. Ferryman, J., Shahrokni, A.: PETS2009: dataset and challenge. In: IEEE Int. Workshop on
Performance Evaluation of Tracking and Surveillance, pp. 1-6 (2009)
13. Isard, M., Blake, A.: Condensation—conditional density propagation for visual tracking. Int.
J. Comput. Vis.
29
, 5-28 (2006)
14. John, V., Trucco, E., Ivekovic, S.: Markerless human articulated tracking using hierarchical
particle swarm optimisation. Image Vis. Comput.
28
(11), 1530-1547 (2010)
15. Kalal, Z., Mikolajczyk, K., Matas, J.: Forward-backward error: automatic detection of track-
ing failures. In: Int. Conf. on Pattern Rec., pp. 2756-2759 (2010)
16. Kennedy, J., Eberhart, R.: Particle swarm optimization. In: Proc. of IEEE Int. Conf. on Neural
Networks, pp. 1942-1948 (1995)
17. Khan, Z., Balch, T., Dellaert, F.: MCMC-based particle filtering for tracking a variable number
of interacting targets. IEEE Trans. Pattern Anal. Mach. Intell.
27
, 1805-1918 (2005)
18. Koelsch, M., Turk, M.: Flocks of features for tracking articulated objects. In: Kisacanin,
T.H.B., Pavlovic, V. (eds.) Real-Time Vision for Human-Computer Interaction. Springer,
Berlin (2005). Chap. 9
19. Koelsch, M., Turk, M.: Hand tracking with flocks of features. In: IEEE Int. Conf. on CVPR,
vol. 2, p. 1187 (2005)
20. Kwolek, B., Krzeszowski, T., Wojciechowski, K.: Real-time multi-view human motion track-
ing using 3D model and latency tolerant parallel particle swarm optimization. In: 5th Int. Conf.
MIRAGE, pp. 169-180. Springer, Berlin (2011)
21. Li, Y., Huang, C., Nevatia, R.: Learning to associate: hybridboosted multi-target tracker for
crowded scene. In: IEEE Int. Conf. on CVPR, pp. 2953-2960 (2009)
22. Li, Y., Huang, C., Nevatia, R.: Stable multi-target tracking in real-time surveillance video. In:
CVPR, pp. 2953-2960 (2009)
23. Okuma, K., Taleghani, A., De Freitas, N., Little, J.J., Lowe, D.G.: A boosted particle filter:
multi-target detection and tracking. In: ECCV, pp. 28-39 (2004)
24. Rasmussen, C., Hager, G.D.: Probabilistic data association methods for tracking complex vi-
sual objects. IEEE Trans. Pattern Anal. Mach. Intell.
23
, 560-576 (2001)
25. Ross, D.A., Lim, J., Lin, R.S., Yang, M.H.: Incremental learning for robust visual tracking.
Int. J. Comput. Vis.
77
(1-3), 125-141 (2008)
26. Steihaug, T.: The conjugate gradient method and trust regions in large-scale optimization.
SIAM J. Numer. Anal.
20
, 626-637 (1983)
27. Stiefelhagen, R., Bernardin, K., Bowers, R., Garofolo, J.S., Mostefa, D., Soundararajan, P.:
The CLEAR 2006 evaluation. In: CLEAR. LNCS, vol. 4122, pp. 1-44. Springer, Berlin
(2006)
28. Yang, H., Shao, L., Zheng, F., Wang, L., Song, Z.: Recent advances and trends in visual track-
ing: a review. Neurocomputing
74
(18), 3823-3831 (2011)
29. Zhang, X., Hu, W., Maybank, S., Li, X., Zhu, M.: Sequential particle swarm optimization for
visual tracking. In: IEEE Int. Conf. on CVPR, pp. 1-8 (2008)
30. Zhang, X., Hu, W., Qu, W., Maybank, S.: Multiple object tracking via species-based particle
swarm optimization. IEEE Trans. Circuits Syst. Video Technol.
20
(11), 1590-1602 (2010)
31. Zhang, X., Hu, W., Wang, X., Kong, Y., Xie, N., Wang, H., Ling, H., Maybank, S.: A swarm
intelligence based searching strategy for articulated 3D human body tracking. In: IEEE Work-
shop on 3D Information Extraction for Video Analysis and Mining, pp. 45-50. IEEE, New
York (2010)
Search WWH ::
Custom Search