Authors: Yunyoung Nam, Junghun Ryu, Yoo-Joo Choi, We-Duke Cho

Abstract:

This paper presents a novel approach for representing the spatio-temporal topology of the camera network with overlapping and non-overlapping fields of view (FOVs). The topology is determined by tracking moving objects and establishing object correspondence across multiple cameras. To track people successfully in multiple camera views, we used the Merge-Split (MS) approach for object occlusion in a single camera and the grid-based approach for extracting the accurate object feature. In addition, we considered the appearance of people and the transition time between entry and exit zones for tracking objects across blind regions of multiple cameras with non-overlapping FOVs. The main contribution of this paper is to estimate transition times between various entry and exit zones, and to graphically represent the camera topology as an undirected weighted graph using the transition probabilities.

Keywords: Surveillance, multiple camera, people tracking, topology.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1334437

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References:

[1] Y. Choi, K. Kim, W. Cho, "Grid-Based Approach for Detecting Head and Hand Regions," International Conference on Intelligent Computing, Qingdao China, August 21-24, 2007, pp. 1126-1132.
[2] J. Black, T. Ellis, and D. Makris, "Wide Area Surveillance with a Multi-Camera Network," Proc. IDSS-04 Intelligent Distributed Surveillance Systems, 2003, pp. 21-25.
[3] P. KaewTrakulPong and R. Bowden, "A Real-time Adaptive Visual Surveillance System for Tracking Low Resolution Colour Targets in Dynamically Changing Scenes," Journal of Image and Vision Computing. Vol 21, Issue 10, Elsevier Science Ltd, 2003, pp. 913-929.
[4] J. Sturges and T. Whitfield, "Locating Basic Colour in the Munsell Space," Colour Research and Application, 1995, pp. 364-376.
[5] Q. Cai and J. Agrarian, "Tracking Human Motion using Multiple Cameras," Proc. International Conference on Pattern Recognition, 1996, pp. 67-72.
[6] P. Kelly, A. Katkere, D. Kuramura, S. Moezzi, and S. Chatterjee, "An Architecture for Multiple Perspective Interactive Video," Proc. of the 3rd ACE International Conference on Multimedia, 1995, pp. 201-212.
[7] G. Welch and G. Bishop, "An Introduction to the Kalman Kilter," Technical Report 95-041,University of North Carolina at Chapel Hill, 1995.
[8] I. Haritaoglu, D. Harwood, L. Davis, "W4:Who, When, Where, What: A Real Time System for Detecting and Tracking People," Third International Conference on Automatic Face and Gesture, 1998.
[9] I. Haritaoglu, D. Harwood, and L. S. Davis, "W4S: A realtime system for detecting and tracking people in 2 1/2D," 5th European Conference on Computer Vision, Freiburg, Germany, 1998.
[10] V. Kettnaker, R. Zabih, "Counting People from multiple cameras," in IEEE ICMCS, Florence, Italy, 1999, pp. 267-271.
[11] T. Huang and S. Russell, "Object Identification in a Bayesian Context," Proc. International Joint Conference on Artificial Intelligence (IJCAI-97), Nagoya, Japan, 1997, pp. 1276-1283.
[12] Q. Cai and J.K. Aggarwal, "Automatic Tracking of Human Motion in Indoor Scenes Across Multiple Synchronized video Streams," 6th International conference on Computer Vision, Bombay, India, 1998, pp. 356-362.
[13] O. Javed, Z. Rasheed, K. Shafique, and M. Shah. "Tracking Across Multiple Cameras with Disjoint Views". Proc. IEEE International Conference on Computer Vision, 2003, pp. 952-957.
[14] A. Dick and M. Brooks, "A Stochastic Approach to Tracking Objects Across Multiple Cameras," Australian Conference on Artificial Intelligence, 2004, pp. 160-170.
[15] T. J. Ellis, D. Makris, and J. Black, "Learning a multi-camera topology," In Joint IEEE Workshop on Visual Surveillance and Performance Evaluation of Tracking and Surveillance (VS-PETS), 2003, pp. 165-171.
[16] C. Stauffer, "Learning to track objects through unobserved regions," In IEEE Computer Society Workshop on Motion and Video Computing, 2005, pp. 96-102.
[17] K. Tieu, G. Dalley, and W. Grimson, "Inference of nonoverlapping camera network topology by measuring statistical dependence," In Proc. IEEE International Conference on Computer Vision, 2005, pp. 1842-1849.
[18] A. Gilbert, R. Bowden, "Tracking Objects Across Cameras by Incrementally Learning Inter-camera Colour Calibration and Patterns of Activity," In Proc European Conference Computer Vision, 2006, pp. 125-136.
[19] Intel Open Source Computer Vision Library, URL http://sourceforge.net/projects/opencvlibrary/