Author
Listed:
- Xiaofeng Guo
(College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong 030801, China)
- Yun Wang
(College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong 030801, China)
- Jianhui Li
(College of Animal Science, Shanxi Agricultural University, Jinzhong 030801, China)
- Qin Li
(Shanxi Provincial Animal Husbandry Technology Promotion Service Center, Taiyuan 030800, China)
- Zhenhuan Zuo
(Shanxi Provincial Breeding Technology Experimental Base, Taiyuan 030800, China)
- Zhenyu Liu
(College of Agricultural Engineering, Shanxi Agricultural University, Jinzhong 030801, China
Dryland Farm Machinery Key Technology and Equipment Key Laboratory of Shanxi Province, Jinzhong 030801, China)
Abstract
Chicken farming plays a crucial role in the global food supply; however, the frequent occurrence of chicken diseases presents a substantial challenge to the industry’s sustainable development. This study introduces an enhanced YOLOv11 model, DOSA-YOLO, designed to detect four prevalent chicken diseases: avian pox, coccidiosis, Mycoplasma gallisepticum , and Newcastle disease. The research team developed an intelligent inspection robot to capture multi-angle images in intensive farming environments, constructing a five-class dataset comprising 8052 images. These images were categorized based on phenotypic features such as comb, eyes, and wattles, as well as pathological anatomical characteristics. To address challenges such as complex backgrounds, multi-scale lesions, and occlusion interference, three attention-enhancement modules—MSDA, MDJA, and SEAM—were integrated into the YOLOv11. The model was trained and validated using the constructed dataset and compared against seven other algorithms, including YOLOv5n, YOLOv7tiny, YOLOv8n, YOLOv9t, YOLOv10n, YOLOv11n, YOLOv12n, and Faster R-CNN. Experimental results demonstrated that DOSA-YOLO achieved a mean Average Precision (mAP) of 97.2% and an F1-score of 95.0%, outperforming the seven other algorithms while maintaining a balance between lightweight design and performance with GFLOPs of 6.9 and 2.87 M parameters. The model provides strong support for real-time chicken health monitoring in intensive farming environments.
Suggested Citation
Xiaofeng Guo & Yun Wang & Jianhui Li & Qin Li & Zhenhuan Zuo & Zhenyu Liu, 2025.
"DOSA-YOLO: Improved Model Research for the Detection of Common Chicken Diseases Using Phenotypic Features,"
Agriculture, MDPI, vol. 15(19), pages 1-27, September.
Handle:
RePEc:gam:jagris:v:15:y:2025:i:19:p:1996-:d:1756526
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