TP-MVCC: Tri-plane Multi-view Fusion Model for Silkie Chicken Counting
This addresses animal counting for smart farming, with practical potential but appears incremental as it builds on multi-view fusion techniques.
The paper tackles the problem of accurately counting chickens in crowded farming scenes with occlusions by proposing TP-MVCC, a tri-plane-based multi-view fusion model that integrates features from multiple cameras onto a ground plane to generate a scene-level density map, achieving 95.1% accuracy.
Accurate animal counting is essential for smart farming but remains difficult in crowded scenes due to occlusions and limited camera views. To address this, we propose a tri-plane-based multi-view chicken counting model (TP-MVCC), which leverages geometric projection and tri-plane fusion to integrate features from multiple cameras onto a unified ground plane. The framework extracts single-view features, aligns them via spatial transformation, and decodes a scene-level density map for precise chicken counting. In addition, we construct the first multi-view dataset of silkie chickens under real farming conditions. Experiments show that TP-MVCC significantly outperforms single-view and conventional fusion comparisons, achieving 95.1\% accuracy and strong robustness in dense, occluded scenarios, demonstrating its practical potential for intelligent agriculture.