3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation

Hiroki Mori; Takaomi Kanda; Dai Hirose; Minoru Asada

3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation

Hiroki Mori, Takaomi Kanda, Dai Hirose, Minoru Asada

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

Abstract

In this paper, we propose a 4-Dimensional Higher-order Local Auto-Correlation (4D HLAC). The method aims to extract the features of a 3D time series, which is regarded as a 4D static pattern. This is an orthodox extension of the original HLAC, which represents correlations among local values in 2D images and can effectively summarize motion in 3D space. To recognize motion in the real world, a recognition system should exploit motion information from the real-world structure. The 4D HLAC feature vector is expected to capture representations for general 3D motion recognition, because the original HLAC performed very well in image recognition tasks. Based on experimental results showing high recognition performance and low computational cost, we conclude that our method has a strong advantage for 3D time series recognition, even in practical situations.

Original language	English
Title of host publication	ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings
Editors	Maria De Marsico, Ana Fred, Mario Figueiredo
Publisher	SciTePress
Pages	223-231
Number of pages	9
ISBN (Electronic)	9789897580765
Publication status	Published - 2015
Externally published	Yes
Event	4th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2015 - Lisbon, Portugal Duration: 2015 Jan 10 → 2015 Jan 12

Publication series

Name	ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings
Volume	1

Other

Other	4th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2015
Country/Territory	Portugal
City	Lisbon
Period	15/1/10 → 15/1/12

Keywords

4-dimensional pattern recognition
Higher-Order Local Auto-Correlation
IXMAS Dataset
Point cloud time series
Tesseractic pattern
Voxel time series

ASJC Scopus subject areas

Computer Vision and Pattern Recognition

Cite this

Mori, H., Kanda, T., Hirose, D., & Asada, M. (2015). 3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation. In M. De Marsico, A. Fred, & M. Figueiredo (Eds.), ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings (pp. 223-231). (ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings; Vol. 1). SciTePress.

3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation. / Mori, Hiroki; Kanda, Takaomi; Hirose, Dai et al.
ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings. ed. / Maria De Marsico; Ana Fred; Mario Figueiredo. SciTePress, 2015. p. 223-231 (ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings; Vol. 1).

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

Mori, H, Kanda, T, Hirose, D & Asada, M 2015, 3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation. in M De Marsico, A Fred & M Figueiredo (eds), ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings. ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings, vol. 1, SciTePress, pp. 223-231, 4th International Conference on Pattern Recognition Applications and Methods, ICPRAM 2015, Lisbon, Portugal, 15/1/10.

Mori H, Kanda T, Hirose D, Asada M. 3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation. In De Marsico M, Fred A, Figueiredo M, editors, ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings. SciTePress. 2015. p. 223-231. (ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings).

Mori, Hiroki ; Kanda, Takaomi ; Hirose, Dai et al. / 3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation. ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings. editor / Maria De Marsico ; Ana Fred ; Mario Figueiredo. SciTePress, 2015. pp. 223-231 (ICPRAM 2015 - 4th International Conference on Pattern Recognition Applications and Methods, Proceedings).

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abstract = "In this paper, we propose a 4-Dimensional Higher-order Local Auto-Correlation (4D HLAC). The method aims to extract the features of a 3D time series, which is regarded as a 4D static pattern. This is an orthodox extension of the original HLAC, which represents correlations among local values in 2D images and can effectively summarize motion in 3D space. To recognize motion in the real world, a recognition system should exploit motion information from the real-world structure. The 4D HLAC feature vector is expected to capture representations for general 3D motion recognition, because the original HLAC performed very well in image recognition tasks. Based on experimental results showing high recognition performance and low computational cost, we conclude that our method has a strong advantage for 3D time series recognition, even in practical situations.",

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AB - In this paper, we propose a 4-Dimensional Higher-order Local Auto-Correlation (4D HLAC). The method aims to extract the features of a 3D time series, which is regarded as a 4D static pattern. This is an orthodox extension of the original HLAC, which represents correlations among local values in 2D images and can effectively summarize motion in 3D space. To recognize motion in the real world, a recognition system should exploit motion information from the real-world structure. The 4D HLAC feature vector is expected to capture representations for general 3D motion recognition, because the original HLAC performed very well in image recognition tasks. Based on experimental results showing high recognition performance and low computational cost, we conclude that our method has a strong advantage for 3D time series recognition, even in practical situations.

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3-Dimensional motion recognition by 4-dimensional Higher-Order Local Auto-Correlation

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Keywords

ASJC Scopus subject areas

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