Action recognition by matching clustered trajectories of motion vectors

Michalis Vrigkas; Vasileios Karavasilis; Christophoros Nikou; Ioannis Kakadiaris

Action recognition by matching clustered trajectories of motion vectors

Michalis Vrigkas, Vasileios Karavasilis, Christophoros Nikou, Ioannis Kakadiaris

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A framework for action representation and recognition based on the description of an action by time series of optical flow motion features is presented. In the learning step, the motion curves representing each action are clustered using Gaussian mixture modeling (GMM). In the recognition step, the optical flow curves of a probe sequence are also clustered using a GMM and the probe curves are matched to the learned curves using a non-metric similarity function based on the longest common subsequence which is robust to noise and provides an intuitive notion of similarity between trajectories. Finally, the probe sequence is categorized to the learned action with the maximum similarity using a nearest neighbor classification scheme. Experimental results on common action databases demonstrate the effectiveness of the proposed method.

Original language	English (US)
Title of host publication	VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications
Pages	112-117
Number of pages	6
State	Published - 2013
Event	8th International Conference on Computer Vision Theory and Applications, VISAPP 2013 - Barcelona, Spain Duration: Feb 21 2013 → Feb 24 2013

Publication series

Name	VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications
Volume	1

Conference

Conference	8th International Conference on Computer Vision Theory and Applications, VISAPP 2013
Country/Territory	Spain
City	Barcelona
Period	2/21/13 → 2/24/13

Keywords

Clustering
Gaussian mixture modeling (GMM)
Human action recognition
Longest common subsequence
Motion curves
Optical flow

ASJC Scopus subject areas

Computer Vision and Pattern Recognition

Cite this

Action recognition by matching clustered trajectories of motion vectors. / Vrigkas, Michalis; Karavasilis, Vasileios; Nikou, Christophoros et al.
VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications. 2013. p. 112-117 (VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Vrigkas, M, Karavasilis, V, Nikou, C & Kakadiaris, I 2013, Action recognition by matching clustered trajectories of motion vectors. in VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications. VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications, vol. 1, pp. 112-117, 8th International Conference on Computer Vision Theory and Applications, VISAPP 2013, Barcelona, Spain, 2/21/13.

Vrigkas, Michalis ; Karavasilis, Vasileios ; Nikou, Christophoros et al. / Action recognition by matching clustered trajectories of motion vectors. VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications. 2013. pp. 112-117 (VISAPP 2013 - Proceedings of the International Conference on Computer Vision Theory and Applications).

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title = "Action recognition by matching clustered trajectories of motion vectors",

abstract = "A framework for action representation and recognition based on the description of an action by time series of optical flow motion features is presented. In the learning step, the motion curves representing each action are clustered using Gaussian mixture modeling (GMM). In the recognition step, the optical flow curves of a probe sequence are also clustered using a GMM and the probe curves are matched to the learned curves using a non-metric similarity function based on the longest common subsequence which is robust to noise and provides an intuitive notion of similarity between trajectories. Finally, the probe sequence is categorized to the learned action with the maximum similarity using a nearest neighbor classification scheme. Experimental results on common action databases demonstrate the effectiveness of the proposed method.",

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N2 - A framework for action representation and recognition based on the description of an action by time series of optical flow motion features is presented. In the learning step, the motion curves representing each action are clustered using Gaussian mixture modeling (GMM). In the recognition step, the optical flow curves of a probe sequence are also clustered using a GMM and the probe curves are matched to the learned curves using a non-metric similarity function based on the longest common subsequence which is robust to noise and provides an intuitive notion of similarity between trajectories. Finally, the probe sequence is categorized to the learned action with the maximum similarity using a nearest neighbor classification scheme. Experimental results on common action databases demonstrate the effectiveness of the proposed method.

AB - A framework for action representation and recognition based on the description of an action by time series of optical flow motion features is presented. In the learning step, the motion curves representing each action are clustered using Gaussian mixture modeling (GMM). In the recognition step, the optical flow curves of a probe sequence are also clustered using a GMM and the probe curves are matched to the learned curves using a non-metric similarity function based on the longest common subsequence which is robust to noise and provides an intuitive notion of similarity between trajectories. Finally, the probe sequence is categorized to the learned action with the maximum similarity using a nearest neighbor classification scheme. Experimental results on common action databases demonstrate the effectiveness of the proposed method.

KW - Clustering

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KW - Human action recognition

KW - Longest common subsequence

KW - Motion curves

KW - Optical flow

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Action recognition by matching clustered trajectories of motion vectors

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

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