Temporal video segmentation by event detection: A novelty detection approach

Mahesh Venkata Krishna; P. Bodesheim; M. Körner; J. Denzler

doi:10.1134/S1054661814020114

Temporal video segmentation by event detection: A novelty detection approach

Mahesh Venkata Krishna
, P. Bodesheim
, M. Körner
, J. Denzler

Friedrich Schiller University Jena

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Temporal segmentation of videos into meaningful image sequences containing some particular activities is an interesting problem in computer vision. We present a novel algorithm to achieve this semantic video segmentation. The segmentation task is accomplished through event detection in a frame-by-frame processing setup. We propose using one-class classification (OCC) techniques to detect events that indicate a new segment, since they have been proved to be successful in object classification and they allow for unsupervised event detection in a natural way. Various OCC schemes have been tested and compared, and additionally, an approach based on the temporal self-similarity maps (TSSMs) is also presented. The testing was done on a challenging publicly available thermal video dataset. The results are promising and show the suitability of our approaches for the task of temporal video segmentation.

Original language	English
Pages (from-to)	243-255
Number of pages	13
Journal	Pattern Recognition and Image Analysis
Volume	24
Issue number	2
DOIs	https://doi.org/10.1134/S1054661814020114
State	Published - Jun 2014
Externally published	Yes

Keywords

novelty detection
one-class classification
temporal self-similarity maps
temporal video segmentation
unsupervised video analysis

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10.1134/S1054661814020114

Cite this

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title = "Temporal video segmentation by event detection: A novelty detection approach",

abstract = "Temporal segmentation of videos into meaningful image sequences containing some particular activities is an interesting problem in computer vision. We present a novel algorithm to achieve this semantic video segmentation. The segmentation task is accomplished through event detection in a frame-by-frame processing setup. We propose using one-class classification (OCC) techniques to detect events that indicate a new segment, since they have been proved to be successful in object classification and they allow for unsupervised event detection in a natural way. Various OCC schemes have been tested and compared, and additionally, an approach based on the temporal self-similarity maps (TSSMs) is also presented. The testing was done on a challenging publicly available thermal video dataset. The results are promising and show the suitability of our approaches for the task of temporal video segmentation.",

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year = "2014",

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language = "English",

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T1 - Temporal video segmentation by event detection

T2 - A novelty detection approach

AU - Krishna, Mahesh Venkata

AU - Bodesheim, P.

AU - Körner, M.

AU - Denzler, J.

PY - 2014/6

Y1 - 2014/6

N2 - Temporal segmentation of videos into meaningful image sequences containing some particular activities is an interesting problem in computer vision. We present a novel algorithm to achieve this semantic video segmentation. The segmentation task is accomplished through event detection in a frame-by-frame processing setup. We propose using one-class classification (OCC) techniques to detect events that indicate a new segment, since they have been proved to be successful in object classification and they allow for unsupervised event detection in a natural way. Various OCC schemes have been tested and compared, and additionally, an approach based on the temporal self-similarity maps (TSSMs) is also presented. The testing was done on a challenging publicly available thermal video dataset. The results are promising and show the suitability of our approaches for the task of temporal video segmentation.

AB - Temporal segmentation of videos into meaningful image sequences containing some particular activities is an interesting problem in computer vision. We present a novel algorithm to achieve this semantic video segmentation. The segmentation task is accomplished through event detection in a frame-by-frame processing setup. We propose using one-class classification (OCC) techniques to detect events that indicate a new segment, since they have been proved to be successful in object classification and they allow for unsupervised event detection in a natural way. Various OCC schemes have been tested and compared, and additionally, an approach based on the temporal self-similarity maps (TSSMs) is also presented. The testing was done on a challenging publicly available thermal video dataset. The results are promising and show the suitability of our approaches for the task of temporal video segmentation.

KW - novelty detection

KW - one-class classification

KW - temporal self-similarity maps

KW - temporal video segmentation

KW - unsupervised video analysis

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DO - 10.1134/S1054661814020114

M3 - Article

AN - SCOPUS:84902319224

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EP - 255

JO - Pattern Recognition and Image Analysis

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Temporal video segmentation by event detection: A novelty detection approach

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Keywords

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