Statistical and entropy based abnormal motion detection

C. P. Lee; K. M. Lim; W. L. Woon

doi:10.1109/SCORED.2010.5704000

Statistical and entropy based abnormal motion detection

C. P. Lee, K. M. Lim, W. L. Woon

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

3 Citations (Scopus)

Abstract

As visual surveillance systems are gaining wider usage in a variety of fields, they need to be embedded with the capability to interpret scenes automatically, which is known as human motion analysis (HMA). However, existing HMA methods are too domain specific and computationally expensive. This paper proposes a general purpose HMA method. It is based on the idea that human beings tend to exhibit random motion patterns during abnormal situations. Hence, angular and linear displacements of limb movements are characterized using basic statistical quantities. In addition, it is enhanced with the entropy of the Fourier spectrum to measure the randomness of the abnormal behavior. Various experiments have been conducted and prove that the proposed method has very high classification accuracy in identifying anomalous behavior.

Original language	English
Title of host publication	Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering
Subtitle of host publication	Innovation and Beyond, SCOReD 2010
Pages	192-197
Number of pages	6
DOIs	https://doi.org/10.1109/SCORED.2010.5704000
Publication status	Published - 2010
Externally published	Yes
Event	2010 8th IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010 - Kuala Lumpur, Malaysia Duration: 13 Dec 2010 → 14 Dec 2010

Publication series

Name	Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010

Conference

Conference	2010 8th IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010
Country/Territory	Malaysia
City	Kuala Lumpur
Period	13/12/10 → 14/12/10

Keywords

Entropy
Image processing
Motion analysis
Neural networks

ASJC Scopus subject areas

Electrical and Electronic Engineering
Education

Access to Document

10.1109/SCORED.2010.5704000

Cite this

Lee, C. P., Lim, K. M., & Woon, W. L. (2010). Statistical and entropy based abnormal motion detection. In Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010 (pp. 192-197). Article 5704000 (Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010). https://doi.org/10.1109/SCORED.2010.5704000

@inproceedings{2514a902b4f141e8b17afbfa3ba21c59,

title = "Statistical and entropy based abnormal motion detection",

abstract = "As visual surveillance systems are gaining wider usage in a variety of fields, they need to be embedded with the capability to interpret scenes automatically, which is known as human motion analysis (HMA). However, existing HMA methods are too domain specific and computationally expensive. This paper proposes a general purpose HMA method. It is based on the idea that human beings tend to exhibit random motion patterns during abnormal situations. Hence, angular and linear displacements of limb movements are characterized using basic statistical quantities. In addition, it is enhanced with the entropy of the Fourier spectrum to measure the randomness of the abnormal behavior. Various experiments have been conducted and prove that the proposed method has very high classification accuracy in identifying anomalous behavior.",

keywords = "Entropy, Image processing, Motion analysis, Neural networks",

author = "Lee, {C. P.} and Lim, {K. M.} and Woon, {W. L.}",

year = "2010",

doi = "10.1109/SCORED.2010.5704000",

language = "English",

isbn = "9781424486489",

series = "Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010",

pages = "192--197",

booktitle = "Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering",

note = "2010 8th IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010 ; Conference date: 13-12-2010 Through 14-12-2010",

}

Lee, CP, Lim, KM & Woon, WL 2010, Statistical and entropy based abnormal motion detection. in Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010., 5704000, Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010, pp. 192-197, 2010 8th IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010, Kuala Lumpur, Malaysia, 13/12/10. https://doi.org/10.1109/SCORED.2010.5704000

Statistical and entropy based abnormal motion detection. / Lee, C. P.; Lim, K. M.; Woon, W. L.
Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010. 2010. p. 192-197 5704000 (Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010).

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Statistical and entropy based abnormal motion detection

AU - Lee, C. P.

AU - Lim, K. M.

AU - Woon, W. L.

PY - 2010

Y1 - 2010

N2 - As visual surveillance systems are gaining wider usage in a variety of fields, they need to be embedded with the capability to interpret scenes automatically, which is known as human motion analysis (HMA). However, existing HMA methods are too domain specific and computationally expensive. This paper proposes a general purpose HMA method. It is based on the idea that human beings tend to exhibit random motion patterns during abnormal situations. Hence, angular and linear displacements of limb movements are characterized using basic statistical quantities. In addition, it is enhanced with the entropy of the Fourier spectrum to measure the randomness of the abnormal behavior. Various experiments have been conducted and prove that the proposed method has very high classification accuracy in identifying anomalous behavior.

AB - As visual surveillance systems are gaining wider usage in a variety of fields, they need to be embedded with the capability to interpret scenes automatically, which is known as human motion analysis (HMA). However, existing HMA methods are too domain specific and computationally expensive. This paper proposes a general purpose HMA method. It is based on the idea that human beings tend to exhibit random motion patterns during abnormal situations. Hence, angular and linear displacements of limb movements are characterized using basic statistical quantities. In addition, it is enhanced with the entropy of the Fourier spectrum to measure the randomness of the abnormal behavior. Various experiments have been conducted and prove that the proposed method has very high classification accuracy in identifying anomalous behavior.

KW - Entropy

KW - Image processing

KW - Motion analysis

KW - Neural networks

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U2 - 10.1109/SCORED.2010.5704000

DO - 10.1109/SCORED.2010.5704000

M3 - Conference contribution

AN - SCOPUS:79951997431

SN - 9781424486489

T3 - Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010

SP - 192

EP - 197

BT - Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering

T2 - 2010 8th IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010

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ER -

Lee CP, Lim KM, Woon WL. Statistical and entropy based abnormal motion detection. In Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010. 2010. p. 192-197. 5704000. (Proceeding, 2010 IEEE Student Conference on Research and Development - Engineering: Innovation and Beyond, SCOReD 2010). doi: 10.1109/SCORED.2010.5704000

Statistical and entropy based abnormal motion detection

Abstract

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Keywords

ASJC Scopus subject areas

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