基于CIOU损失的改进边界盒回归损失函数用于多尺度目标检测

Shuangjiang Du, Baofu Zhang, Pin Zhang, Peng Xiang
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引用次数: 12

摘要

回归损失函数是目标检测训练和优化过程中的关键因素。目前主流的回归损失函数有Ln范数损失、IOU损失和CIOU损失。本文提出了Scale-Sensitive IOU(SIOU)损失函数,这是一种不同于上述损失函数的新型损失函数,它可以解决当前损失函数在训练过程中,当一幅图像的目标区域尺度变化较大时,在某些特殊情况下无法区分两个边界框,从而导致回归损失计算不当和优化速度变慢的问题。在CIOU损失的基础上加入面积尺度调节因子Y来调节边界框的损失值,理论上可以定量区分所有的边界框,从而获得更快的收敛速度和更好的优化效果。通过对几种损耗函数的分析和仿真比较,验证了SIOU损耗的优越性。此外,在迪奥和NWPU VHR-10两种主流航空遥感数据集上,将SIOU损耗纳入YOLO v4、Faster R-CNN和SSD,探测精度分别比IOU损耗提高10.2%和2.8%。
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An Improved Bounding Box Regression Loss Function Based on CIOU Loss for Multi-scale Object Detection
The regression loss function is a key factor in the training and optimization process of object detection. The current mainstream regression loss functions are Ln norm loss, IOU loss and CIOU loss. This paper proposes the Scale-Sensitive IOU(SIOU) loss, a new loss function different from the above all, which could solve the issues that the current loss functions cannot distinguish the two bounding boxes in some special cases when the target area scales in one image vary greatly during training process, thereby leading to the improper regression loss calculation and the slowing down of the optimization. An area scale regulating factor Y is added on the basis of CIOU loss to adjust the loss values of the bounding boxes, which could distinguish all the boxes quantitatively in theory thus gets a faster converging speed and better optimization. Through analysis and simulation comparison among the several loss functions, the superiority of SIOU loss is verified. Furthermore, by incorporating SIOU loss into YOLO v4, Faster R-CNN and SSD on the two mainstream aerial remote sensing datasets, i.e., DIOR and NWPU VHR-10, the detection precisions improve by 10.2% than IOU loss and 2.8% than CIOU loss respectively.
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