Deep Transfer Learning-Based Animal Face Identification Model Empowered with Vision-Based Hybrid Approach

The importance of accurate livestock identification for the success of modern livestock industries cannot be overstated as it is essential for a variety of purposes, including the traceability of animals for food safety, disease control, the prevention of false livestock insurance claims, and breedi...

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Bibliographic Details
Published in:Applied sciences 2023-01, Vol.13 (2), p.1178
Main Authors: Ahmad, Munir, Abbas, Sagheer, Fatima, Areej, Issa, Ghassan F., Ghazal, Taher M., Khan, Muhammad Adnan
Format: Article
Language:English
Subjects:
Accuracy
Algorithms
Animal husbandry
Animal welfare
Animals
automated horse identification
Automation
Biometric identification
Biometrics
Disease control
Efficiency
Epidemics
equine biometrics
Feature recognition
Food safety
horse identification
Horses
Identification systems
Insurance
Livestock
livestock identification
Livestock industry
livestock muzzle pattern identification
Pattern recognition
Real time
Retina
Security
Semiconductors
Transfer learning
yolo
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Summary:The importance of accurate livestock identification for the success of modern livestock industries cannot be overstated as it is essential for a variety of purposes, including the traceability of animals for food safety, disease control, the prevention of false livestock insurance claims, and breeding programs. Biometric identification technologies, such as thumbprint recognition, facial feature recognition, and retina pattern recognition, have been traditionally used for human identification but are now being explored for animal identification as well. Muzzle patterns, which are unique to each animal, have shown promising results as a primary biometric feature for identification in recent studies. Muzzle pattern image scanning is a widely used method in biometric identification, but there is a need to improve the efficiency of real-time image capture and identification. This study presents a novel identification approach using a state-of-the-art object detector, Yolo (v7), to automate the identification process. The proposed system consists of three stages: detection of the animal’s face and muzzle, extraction of muzzle pattern features using the SIFT algorithm and identification of the animal using the FLANN algorithm if the extracted features match those previously registered in the system. The Yolo (v7) object detector has mean average precision of 99.5% and 99.7% for face and muzzle point detection, respectively. The proposed system demonstrates the capability to accurately recognize animals using the FLANN algorithm and has the potential to be used for a range of applications, including animal security and health concerns, as well as livestock insurance. In conclusion, this study presents a promising approach for the real-time identification of livestock animals using muzzle patterns via a combination of automated detection and feature extraction algorithms.
ISSN:2076-3417
2076-3417
DOI:10.3390/app13021178