Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique

Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique

In this paper the feasibility to extract the proportion of pigs located in different areas of a pig pen by advanced image analysis technique is explored and discussed for possible applications. For example, pigs generally locate themselves in the wet dunging area at high ambient temperatures in orde...

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Main Authors: M. Nilsson, A.H. Herlin, H. Ardö, O. Guzhva, K. Åström, C. Bergsten
Format: Article
Language:English
Published: Elsevier 2015-01-01
Series:Animal
Subjects:
behaviour analysis
image segmentation
ratio of areas
pigs
Online Access:http://www.sciencedirect.com/science/article/pii/S1751731115001342
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spelling doaj-b72d056a5b4f4ab397587bdb9c9d34cb2021-06-06T04:51:19ZengElsevierAnimal1751-73112015-01-0191118591865Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation techniqueM. Nilsson0A.H. Herlin1H. Ardö2O. Guzhva3K. Åström4C. Bergsten5Lund University, Centre for Mathematical Sciences, PO Box 118, SE-22100 Lund, SwedenSwedish University of Agricultural Sciences, Department of Biosystems and Technology, PO Box 103, SE-23053 Alnarp, SwedenLund University, Centre for Mathematical Sciences, PO Box 118, SE-22100 Lund, SwedenSwedish University of Agricultural Sciences, Department of Biosystems and Technology, PO Box 103, SE-23053 Alnarp, SwedenLund University, Centre for Mathematical Sciences, PO Box 118, SE-22100 Lund, SwedenSwedish University of Agricultural Sciences, Department of Biosystems and Technology, PO Box 103, SE-23053 Alnarp, SwedenIn this paper the feasibility to extract the proportion of pigs located in different areas of a pig pen by advanced image analysis technique is explored and discussed for possible applications. For example, pigs generally locate themselves in the wet dunging area at high ambient temperatures in order to avoid heat stress, as wetting the body surface is the major path to dissipate the heat by evaporation. Thus, the portion of pigs in the dunging area and resting area, respectively, could be used as an indicator of failure of controlling the climate in the pig environment as pigs are not supposed to rest in the dunging area. The computer vision methodology utilizes a learning based segmentation approach using several features extracted from the image. The learning based approach applied is based on extended state-of-the-art features in combination with a structured prediction framework based on a logistic regression solver using elastic net regularization. In addition, the method is able to produce a probability per pixel rather than form a hard decision. This overcomes some of the limitations found in a setup using grey-scale information only. The pig pen is a difficult imaging environment because of challenging lighting conditions like shadows, poor lighting and poor contrast between pig and background. In order to test practical conditions, a pen containing nine young pigs was filmed from a top view perspective by an Axis M3006 camera with a resolution of 640×480 in three, 10-min sessions under different lighting conditions. The results indicate that a learning based method improves, in comparison with greyscale methods, the possibility to reliable identify proportions of pigs in different areas of the pen. Pigs with a changed behaviour (location) in the pen may indicate changed climate conditions. Changed individual behaviour may also indicate inferior health or acute illness.http://www.sciencedirect.com/science/article/pii/S1751731115001342behaviour analysisimage segmentationratio of areaspigs
collection DOAJ
language English
format Article
sources DOAJ
author M. Nilsson
A.H. Herlin
H. Ardö
O. Guzhva
K. Åström
C. Bergsten
spellingShingle M. Nilsson
A.H. Herlin
H. Ardö
O. Guzhva
K. Åström
C. Bergsten
Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
Animal
behaviour analysis
image segmentation
ratio of areas
pigs
author_facet M. Nilsson
A.H. Herlin
H. Ardö
O. Guzhva
K. Åström
C. Bergsten
author_sort M. Nilsson
title Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
title_short Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
title_full Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
title_fullStr Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
title_full_unstemmed Development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
title_sort development of automatic surveillance of animal behaviour and welfare using image analysis and machine learned segmentation technique
publisher Elsevier
series Animal
issn 1751-7311
publishDate 2015-01-01
description In this paper the feasibility to extract the proportion of pigs located in different areas of a pig pen by advanced image analysis technique is explored and discussed for possible applications. For example, pigs generally locate themselves in the wet dunging area at high ambient temperatures in order to avoid heat stress, as wetting the body surface is the major path to dissipate the heat by evaporation. Thus, the portion of pigs in the dunging area and resting area, respectively, could be used as an indicator of failure of controlling the climate in the pig environment as pigs are not supposed to rest in the dunging area. The computer vision methodology utilizes a learning based segmentation approach using several features extracted from the image. The learning based approach applied is based on extended state-of-the-art features in combination with a structured prediction framework based on a logistic regression solver using elastic net regularization. In addition, the method is able to produce a probability per pixel rather than form a hard decision. This overcomes some of the limitations found in a setup using grey-scale information only. The pig pen is a difficult imaging environment because of challenging lighting conditions like shadows, poor lighting and poor contrast between pig and background. In order to test practical conditions, a pen containing nine young pigs was filmed from a top view perspective by an Axis M3006 camera with a resolution of 640×480 in three, 10-min sessions under different lighting conditions. The results indicate that a learning based method improves, in comparison with greyscale methods, the possibility to reliable identify proportions of pigs in different areas of the pen. Pigs with a changed behaviour (location) in the pen may indicate changed climate conditions. Changed individual behaviour may also indicate inferior health or acute illness.
topic behaviour analysis
image segmentation
ratio of areas
pigs
url http://www.sciencedirect.com/science/article/pii/S1751731115001342
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AT cbergsten developmentofautomaticsurveillanceofanimalbehaviourandwelfareusingimageanalysisandmachinelearnedsegmentationtechnique
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