This study aimed to develop an object detection and automatic recognition system based on YOLO (You Only Look Once) to enable the prior identification of immobilization devices and enhance workflow efficiency during radiation therapy simulation. The system was implemented using the PyQt5 GUI framework in Python (version 3.8.19). A total of 11 types of immobilization devices were selected, and inference was conducted using 146 dataset images across three YOLOv11 model variants (YOLOv11n, YOLOv11s, YOLOv11m). Model performance was evaluated using precision, recall, and mean average precision at IoU thresholds of 0.5 (mAP50) and 0.50—0.95 (mAP50—95). The YOLOv11s model showed the highest precision, outperforming YOLOv11n and YOLOv11m by 14.66% and 25.86%, respectively. In contrast, the YOLOv11n model demon- strated the highest recall, surpassing YOLOv11s and YOLOv11m by 18.43% and 0.92%, respectively. While mAP50 values were similar across models, YOLOv11n achieved slightly higher mAP50—95 values than YOLOv11s and YOLOv11m by 0.46% and 1.28%, respectively. Overall, YOLOv11n exhibited superior performance in terms of recall, mAP50, and mAP50—95, whereas YOLOv11s excelled in precision. YOLOv11m showed relatively lower performance across most metrics. These findings suggest that YOLO-based object detection technology may enhance patient safety by facilitating the prior identification of immobilization device during radiation therapy simulation. Future studies incorporating various device types, patient positioning variations, and model optimization are needed to improve clinical applicability.