The emergence of unmanned aerial vehicles (UAVs) raised multiple concerns, given their potential for malicious misuse in unlawful acts Vision-based counter-UAV applications offer a reliable solution compared to acoustic and radio frequencybased solutions because of their high detection accuracy in diverse weather conditions. The existing solutions work well on trained datasets, but their accuracy is relatively low for real-time detection. In this paper, we model deep learning-empowered solutions to improve the multi-class UAV’s classification performance using single-shot object detection algorithms YOLOv5 and YOLOv7. Transfer learning is employed for performance improvement and rapid training with improved results. We customized a multiclass dataset containing single-rotor, fixed-wing and multi-rotor UAVs in challenging weather conditions. Experiments show that the integration of transfer learning has achieved good results, with an overall best average-classification precision of 94%, an average recall of 93.1%, a mAP@0.5 average of 95.3%, and an average F1 score of 92.33%. The dataset and code are available as an open source: https://github.con ZeeshanKaleem/YOLOV5-Large-vs-YOLOV7.git