Infrared target detection and recognition in complex scene

Q3 Engineering

光电工程 Pub Date : 2020-10-30 DOI:10.12086/OEE.2020.200314

Zhang Ruzhen, Zhang Jianlin, Qi Xiaoping, Zuo Hao-rui, Xu Zhiyong

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引用次数: 7

Abstract

The mainstream target detection network has outstanding target detection capability in high quality RGB images, but for infrared images with poor resolution, the target detection performance decreases significantly. In order to improve the performance of infrared target detection in complex scene, the following measures are adopted in this paper: Firstly, by referring to the field adaption and adopting the appropriate infrared image preprocessing means, the infrared image is closer to the RGB image, so that the mainstream target detection network can further improve the detection accuracy. Secondly, based on the one-stage target detection network YOLOv3, the algorithm replaces the original MSE loss function with the GIOU loss function. It is verified by experiments that the detection accuracy on the open infrared data set the FLIR is significantly improved. Thirdly, in view of the problem of large target size span existing in FLIR dataset, the SPP module is added with reference to the idea of the spatial pyramid to enrich the expression ability of feature map, expand the receptive field of feature map, and further improve the accuracy of target detection.

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复杂场景下红外目标检测与识别

主流目标检测网络在高质量RGB图像中具有出色的目标检测能力，但对于分辨率较差的红外图像，目标检测性能明显下降。为了提高复杂场景下红外目标检测的性能，本文采取了以下措施:首先，参考现场自适应，采用适当的红外图像预处理手段，使红外图像更接近RGB图像，使主流目标检测网络进一步提高检测精度。其次，基于一级目标检测网络YOLOv3，将原有的MSE损失函数替换为GIOU损失函数;实验证明，该方法在开放红外数据集上的检测精度明显提高。第三，针对FLIR数据集存在的目标尺寸跨度大的问题，借鉴空间金字塔的思想，增加SPP模块，丰富特征图的表达能力，扩大特征图的接受场，进一步提高目标检测的精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

光电工程 Engineering-Electrical and Electronic Engineering

CiteScore

2.00

自引率

0.00%

发文量

6622

期刊介绍：