一种利用卷积神经网络的干涉图去噪方法  被引量：2

作　　者：陶立清 黄国满[1] 杨书成[1] 王童童 盛辉军 范海涛 TAO Liqing;HUANG Guoman;YANG Shucheng;WANG Tongtong;SHENG Huijun;FAN Haitao(Chinese Academy of Surveying and Mapping,Beijing 100039,China;China Academy of Space Technology Hangzhou Institute,Hangzhou 310001,China;College of Geodesy and Geomatics,Shandong University of Science and Technology,Qingdao 266590,China;Sehool of Marine Technology and Geomatics,Jiangsu Ocean University,Lianyungang 222005,China)

机构地区：[1]中国测绘科学研究院,北京100039 [2]中国空间技术研究院杭州中心,浙江杭州310001 [3]山东科技大学测绘与空间信息学院,山东青岛266590 [4]江苏海洋大学海洋技术与测绘学院,江苏连云港222005

出　　处：《武汉大学学报（信息科学版）》2023年第4期559-567,共9页Geomatics and Information Science of Wuhan University

基　　金：测绘自主可控专项(A1966);中国测绘科学研究院基本科研业务费(AR2105)。

摘　　要：干涉图滤波是合成孔径雷达数据处理的关键,引入卷积神经网络(convolutional neural networks,CNN)进行干涉图去噪。首先,采用自编码器结构进行非监督学习,将干涉图去除局部地形坡度相位,所得残余噪声作为模型输入;然后将模型输出结果与去除的局部地形坡度相位相加,生成滤波结果。利用航天飞机成像雷达数据和哨兵一号A(Sentinel-1A)卫星数据,通过与Goldstein滤波器、均值滤波器、Lee滤波、Frost滤波、改进的去噪卷积神经网络(denoising convolutional neural network,DnCNN)进行对比实验,结果表明,该方法对干涉图相位质量有很大的改善,不仅能够较大程度地抑制噪声,而且能够更多地恢复出图像细节,保持干涉条纹边缘连续性。Objectives Interferogram filtering is the key to the subsequent processing steps of interferometric synthetic aperture radar,such as phase unwrapping and geocoding.However,the existing filtering methods can't retain features in dense fringes and accurately estimate phase in low-coherence regions.The convolutional neural networks(CNN)is introduced to learn noise features and solve this problem.Methods First,we selected a certain number of interferograms as samples,and divided them into training set,test set,and validation set.Second,we preprocessed the training set samples,and cut the preprocessed training set interferograms into small fixed-size block and randomly extract it as a model training sample,used the above steps to train the autoencoder filter model,after a certain number of iterations,the model was fitted.Results Experiments were carried out on spaceborne imaging radar-C-band synthetic aperture radar data and Sentinel-1A data.Our proposed method was compared with Goldstein filter,mean filter,Lee filter,Frost filter,and improved denoising convolutional neural network(DnCNN).Goldstein filter can remove most of the noise while maintaining fringes edge,has good denoising ability.Mean filter performs well in high-coherence areas,but performs poorly in low-coherence areas,and can't filter noise well.Lee filter maintains it well image resolution,but the denoising effect is weak,and it can be seen from the filtering results that there is still a lot of noise.Frost filtering is weak in low-coherence areas and there is a lot of noise,but the fringe edges are well maintained in high-coherence areas.The improved DnCNN filter can significantly eliminate the noise,but it can't distinguish the fringe edge and the noise well.Our proposed method can suppress the noise very well,and it can maintain the fringe edge well in the low-coherence area and the high-coherence area.Conclusions This proposed method can greatly improve the phase quality of the interferogram,suppress the noise to a greater extent,and restore more im

关 键 词：干涉图 卷积神经网络 非监督学习 相位噪声 

分 类 号：P237[天文地球—摄影测量与遥感]