Hierarchical model-based activity recognition with automatic low-level state discovery

被引：0

作者：

Department of Computer Science, University of California, Santa Barbara, United States ^{[1
]}

不详 ^{[2
]}

机构：

[1] Department of Computer Science, University of California, Santa Barbara

[2] Honeywell Labs, Minneapolis, MN 55418

来源：

J. Multimedia | 2007年 / 5卷 / 66-76期

关键词：

Activity recognition; Deterministic Annealing; Dynamic bayesian networks; Video surveillance;

D O I：

10.4304/jmm.2.5.66-76

中图分类号：

学科分类号：

摘要：

Activity recognition in video streams is increasingly important for both the computer vision and artificial intelligence communities. Activity recognition has many applications in security and video surveillance. Ultimately in such applications one wishes to recognize complex activities, which can be viewed as combination of simple activities. In this paper, we present a general framework of a Dlevel dynamic Bayesian network to perform complex activity recognition. The levels of the network are constrained to enforce state hierarchy while the Dth level models the duration of simplest event. Moreover, in this paper we propose to use the deterministic annealing clustering method to automatically define the simple activities, which corresponds to the low level states of observable levels in a Dynamic Bayesian Networks. We used real data sets for experiments. The experimental results show the effectiveness of our proposed method. © 2007 ACADEMY PUBLISHER.

引用

页码：66 / 76

页数：10

共 26 条

[1] Ivanov Y.A., Bobick A., Recognition of Visual Activities and Interactions by Stochastic Parsing, IEEE Transaction On Pattern Analysis and Machine Intelligence, 22, pp. 852-872, (2000)
[2] Medioni G.C.I.H.S.B.F., Nevatia R., Event Detection and Analysis from Video Streams, IEEE Transaction On Pattern Analysis and Machine Intelligence, 8, pp. 873-889, (2001)
[3] Nevatia H.S.R., Bremond F., Video-based event recognition: Activity representation and probabilistic recognition methods, Computer Vision and Image Understanding, 96, pp. 129-162, (2004)
[4] Ryoo M., Aggarwal J., Recognition of Composite Human Activities through Context-Free Grammar Based Representation, IEEE Computer Society Conf. On Computer Vision and Pattern Recognition, pp. 1709-1718
[5] Ma Y., Miller B., Buddharaju P., Bazakos M., Activity Awareness: From Predefined Events to New Pattern Discovery, Proceedings of the Fourth IEEE International Conference On Computer Vision Systems, (2006)
[6] Nevatia T.Z.R., Hongeng S., Hierarchical Language-based Representation of Events in Video Streams, IEEE Workshop On Event Mining, Madison, WI, (2003)
[7] Vu V., Bremond F., Thonnat M., Automatic Video Interpretation: A Recognition Algorithm for Temporal Scenarios Based on Pre-compiled Scenario Models, International Conference On Visual Systems, pp. 523-533, (2003)
[8] Rose K., Deterministic annealing for clustering, compression, classification, regression, and related optimization problems, Proceedings of the IEEE, 86, 11, pp. 2210-2239, (1998)
[9] Muncaster J., Ma Y., Activity Recognition using Dynamic Bayesian Networks with Automatic State Selection, IEEE Workshop On Motion and Video Computing(WMVC), (2007)
[10] Hongeng S., Bremond F., Nevatia R., Bayesian framework for video surveillance application, 15th International Conference On Pattern Recognition, 1, pp. 164-170, (2000)

← 1 2 3 →