Validation of a deep learning model for cattle lameness detection: Comparison of human scorer performance and automated gait analysis

Validation of a deep learning model for cattle lameness detection: Comparison of human scorer performance and automated gait analysis

Lameness is a common health and welfare issue in dairy cattle, with significant economic consequences due to reduced productivity. Traditional visual locomotion scoring relies on human expertise and is prone to subjectivity and variability. This study presents an AI-based system for automated lamene...

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Bibliographic Details
Main Authors: Sandra Reitmaier, Serhan Narli
Format: Article
Language:English
Published: Elsevier 2025-12-01
Series:Smart Agricultural Technology
Subjects:
Machine learning
Lameness detection
Dairy cows
Locomotion scoring
Pose Estimation
Computer Vision
Online Access:http://www.sciencedirect.com/science/article/pii/S2772375525004836
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Summary:Lameness is a common health and welfare issue in dairy cattle, with significant economic consequences due to reduced productivity. Traditional visual locomotion scoring relies on human expertise and is prone to subjectivity and variability. This study presents an AI-based system for automated lameness detection, integrating deep learning for keypoint extraction with kinematic feature-based classification. A total of 424 high-resolution locomotion videos from 260 Holstein Friesian cows were collected across four German farms and scored using the 5-point Locomotion Scoring System (LCS) by 12 experienced human evaluators. The system was trained using two strategies: a direct multi-class Random Forest model and a hierarchical model combining binary and multi-class stages. The hierarchical model achieved 94 % accuracy, while the multi-class model reached 87.5%. Both models showed high sensitivity and specificity, and their average prediction closely matched the consensus of human scorers. Despite this, mild lameness remained difficult to classify for both humans and AI, particularly between LCS-2 and LCS-3. The findings support the potential of AI systems to deliver consistent, scalable, and objective lameness detection, with future applications in real time farm settings to improve welfare outcomes and decision making.
ISSN:2772-3755

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