HSS-YOLO Lightweight Object Detection Model for Intelligent Inspection Robots in Power Distribution Rooms

• Published in: Algorithms Vol. 18; no. 8; p. 495
• Main Authors: Li, Liang, He, Yangfei, Wei, Yingying, Pu, Hucheng, He, Xiangge, Li, Chunlei, Zhang, Weiliang
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.08.2025
• Subjects: Accuracy; Algorithms; Analysis; Datasets; Deep learning; dim environment object detection; Efficiency; Floating point arithmetic; HetConv; Information processing; Inner-SIoU; Inspection; Neural networks; Object recognition; Real time; Robotics industry; Robots; ShuffleAttention; Substations; YOLO11 improvement
• ISSN: 1999-4893; 1999-4893
• DOI: 10.3390/a18080495

Currently, YOLO-based object detection is widely employed in intelligent inspection robots. However, under interference factors present in dimly lit substation environments, YOLO exhibits issues such as excessively low accuracy, missed detections, and false detections for critical targets. To address these problems, this paper proposes HSS-YOLO, a lightweight object detection model based on YOLOv11. Initially, HetConv is introduced. By combining convolutional kernels of different sizes, it reduces the required number of floating-point operations (FLOPs) and enhances computational efficiency. Subsequently, the integration of Inner-SIoU strengthens the recognition capability for small targets within dim environments. Finally, ShuffleAttention is incorporated to mitigate problems like missed or false detections of small targets under low-light conditions. The experimental results demonstrate that on a custom dataset, the model achieves a precision of 90.5% for critical targets (doors and two types of handles). This represents a 4.6% improvement over YOLOv11, while also reducing parameter count by 10.7% and computational load by 9%. Furthermore, evaluations on public datasets confirm that the proposed model surpasses YOLOv11 in assessment metrics. The improved model presented in this study not only achieves lightweight design but also yields more accurate detection results for doors and handles within dimly lit substation environments.