%0 Journal Article
%T 基于不可分小波和改进YOLOv8的交通标志检测算法
Traffic Sign Detection Algorithm Based on Non-Separable Wavelets and Improved YOLOv8
%A 范阳旭
%J Journal of Image and Signal Processing
%P 179-189
%@ 2325-6745
%D 2024
%I Hans Publishing
%R 10.12677/jisp.2024.132016
%X 在现代智能交通系统中,高效且准确的交通标志检测对于辅助驾驶和自动驾驶系统具有重要意义。针对背景复杂的道路场景中交通标志尺寸小导致的识别精度低,漏检等问题,提出了一种基于不可分小波和改进YOLOv8的交通标志检测算法。首先,采用不可分小波处理输入图像,有效提取高频信息以增强图像的细节表现,提高模型的鲁棒性。其次,引入针对小目标的检测层,取代原始模型中的大目标检测层,优化网络结构,从而显著提升了小目标的检测性能。接着,将网络中的跨步卷积替换成SPD-Conv,有效减少特征信息的丢失。最后,采用WIoU损失函数代替原有的损失函数。在TT100K数据集上进行训练,实验结果显示,改进后的算法相较于YOLOv8在精确率及mAP@0.5上,分别提升了9.7%和11.5%,性能明显优于原始算法。
In modern intelligent transportation systems, efficient and accurate traffic sign detection is of great significance for assisted driving and autonomous driving systems. Aiming at the problems of low recognition accuracy and missed detection caused by the small size of traffic signs in road scenes with complex backgrounds, a traffic sign detection algorithm based on indivisible wavelets and improved YOLOv8 is proposed. Firstly, the input image is processed with Non-Separable wavelets to effectively extract high-frequency information in order to enhance the detail performance of the image and improve the robustness of the model. Second, a detection layer for small targets is introduced to replace the large target detection layer in the original model, and the network structure is optimized, thus significantly improving the detection performance of small targets. Next, the stepwise convolution in the network is replaced with SPD-Conv to effectively reduce the loss of feature information. Finally, the WIoU loss function is used instead of the original loss function. Trained on the TT100K dataset, the experimental results show that the improved algorithm improves 9.7% and 11.5% compared to YOLOv8 in terms of accuracy and mAP@0.5, respectively, and the performance is significantly better than the original algorithm.
%K 交通标志检测,不可分小波,YOLOv8,小目标检测,SPD-Conv
Traffic Sign Detection
%K Non-Separable Wavelet
%K YOLOv8
%K Small Object Detection
%K SPD-Conv
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=84727