Vision transformer-based multi-camera multi-object tracking framework for dairy cow monitoring

TL;DR

This paper presents a real-time, multi-camera computer vision system for accurately tracking dairy cows indoors, combining advanced detection, segmentation, and tracking algorithms to improve health monitoring and activity analysis.

Contribution

It introduces a novel multi-camera tracking framework using state-of-the-art models like YOLO11-m and SAMURAI, achieving high accuracy in complex indoor environments.

Findings

High detection accuracy with mAP@0.50 = 0.97

Multi-Object Tracking Accuracy of 98.7% and 99.3%

Near-zero identity switches in cow tracking

Abstract

Activity and behaviour correlate with dairy cow health and welfare, making continual and accurate monitoring crucial for disease identification and farm productivity. Manual observation and frequent assessments are laborious and inconsistent for activity monitoring. In this study, we developed a unique multi-camera, real-time tracking system for indoor-housed Holstein Friesian dairy cows. This technology uses cutting-edge computer vision techniques, including instance segmentation and tracking algorithms to monitor cow activity seamlessly and accurately. An integrated top-down barn panorama was created by geometrically aligning six camera feeds using homographic transformations. The detection phase used a refined YOLO11-m model trained on an overhead cow dataset, obtaining high accuracy (mAP\@0.50 = 0.97, F1 = 0.95). SAMURAI, an upgraded Segment Anything Model 2.1, generated pixel-precise cow masks for instance segmentation utilizing zero-shot learning and motion-aware memory. Even with occlusion and fluctuating posture, a motion-aware Linear Kalman filter and IoU-based data association reliably identified cows over time for object tracking. The proposed system significantly outperformed Deep SORT Realtime. Multi-Object Tracking Accuracy (MOTA) was 98.7% and 99.3% in two benchmark video sequences, with IDF1 scores above 99% and near-zero identity switches. This unified multi-camera system can track dairy cows in complex interior surroundings in real time, according to our data. The system reduces redundant detections across overlapping cameras, maintains continuity as cows move between viewpoints, with the aim of improving early sickness prediction through activity quantification and behavioural classification.