Group Sparse Representation Approach for Recognition of Cattle on Muzzle Point Images

The usage of computer vision adds a new paradigm in the field of animal biometric, and has recently received more attention due to the growing importance of identification and tracking of animal species or individual animals. Biometric characteristics help to develop a better representation and a be...

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Vydáno v:International journal of parallel programming Ročník 46; číslo 5; s. 812 - 837
Hlavní autoři: Kumar, Santosh, Singh, Sanjay Kumar, Abidi, Ali Imam, Datta, Deepanwita, Sangaiah, Arun Kumar
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York Springer US 01.10.2018
Springer Nature B.V
Témata:
Animals
Biometrics
Cattle
Computer Science
Computer vision
Face recognition
Feature extraction
Feature recognition
Image classification
Machine learning
Object recognition
Processor Architectures
Regression models
Representations
Software Engineering/Programming and Operating Systems
Special Issue on Parallel Approaches for Data Mining in the Internet of Things Realm
Theory of Computation
Texture descriptor
Multi-modal
SRC
Cattle recognition
Animal biometrics
Fusion
Muzzle point pattern
ISSN:0885-7458, 1573-7640
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Shrnutí:The usage of computer vision adds a new paradigm in the field of animal biometric, and has recently received more attention due to the growing importance of identification and tracking of animal species or individual animals. Biometric characteristics help to develop a better representation and a better identification of different animal species and individual animals. In this work, we propose an effective approach for automatic cattle recognition based on the multiple features of muzzle points and the cattle face images. The proposed method deals the cattle recognition problem as a classification problem among the multiple linear regression models and provides a new theory for the recognition of individual cattle. The group sparse signal representation based classification offers the key to addressing this problem using L2-minimization. In this paper, a comparative study among the well-established handcrafted texture feature extraction techniques and the appearance-based feature extraction techniques is also presented. A detailed set of experimental results on muzzle point image database is also carried to prove the theory. Our method has achieved 93.87% identification accuracy which demonstrates the superiority of the proposed method than the other existing machine learning based recognition algorithms.
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ISSN:0885-7458
1573-7640
DOI:10.1007/s10766-017-0550-x