摘要
目的高分2号卫星(GF-2)是首颗民用高空间分辨率光学卫星,具有亚米级高空间分辨率与宽覆盖结合的显著特点,为城市绿地信息提取等多领域提供了重要的数据支撑。本文利用GF-2卫星多光谱遥感影像,将一种改进的U-Net卷积神经网络首次应用于城市绿地分类,提出一种面向高分遥感影像的城市绿地自动分类提取技术。方法先针对小样本训练集容易产生的过拟合问题对U-Net网络进行改进,添加批标准化(batch normalization,BN)和dropout层获得U-Net+模型;再采用随机裁剪和随机数据增强的方式扩充数据集,使得在充分利用影像信息的同时保证样本随机性,增强模型稳定性。结果将U-Net+模型与最大似然法(maximum likelihood estimation,MLE)、神经网络(neural networks,NNs)和支持向量机(support vector machine,SVM) 3种传统分类方法以及U-Net、Seg Net和Deep Labv3+这3种深度学习语义分割模型进行分类结果精度对比。改进后的U-Net+模型能有效防止过拟合,模型总体分类精度比改进前提高了1.06%。基于改进的U-Net+模型的城市绿地总体分类精度为92.73%,平均F1分数为91.85%。各分类方法按照总体分类精度从大到小依次为U-Net+(92.73%)、U-Net(91.67%)、Seg Net(88.98%)、Deep Labv3+(87.41%)、SVM(81.32%)、NNs(79.92%)和MLE(77.21%)。深度学习城市绿地分类方法能充分挖掘数据的光谱、纹理及潜在特征信息,有效降低分类过程中产生的"椒盐噪声",具有较好的样本容错能力,比传统遥感分类方法更适用于城市绿地信息提取。结论改进后的U-Net+卷积神经网络模型能够有效提升高分遥感影像城市绿地自动分类提取精度,为城市绿地分类提供了一种新的智能解译方法。
Objective High-precision monitoring of the spatial distribution of urban green space has important social,economic,and ecological benefits for optimizing the spatial structure of such space,maintaining urban ecological balance,and developing green city construction. As the first civilian optical satellite with high spatial resolution,Gaofen2( GF-2) exhibits the remarkable characteristics of sub-meter high spatial resolution and wide coverage. GF2 provides important data support to multiple fields,such as urban environmental monitoring and urban green space information extraction. However,traditional classification methods still encounter many problems. For example,training a method to be an effective classifier for massive data is difficult,and the accuracy of classification results is generally low. The use of massive high-resolution remote sensing images to achieve large-scale rapid and accurate urban green space distribution extraction is an urgent task for urban planning managers. With the rapid development of deep learning technology,full convolutional networks( FCN)provide novel creative possibilities for semantic segmentation and realize pixel-level classification of images in the field of deep learning for the first time. Inspired by the U-Net network structure,we applied an improved U-Net to urban green space classification for the first time and proposed an automatic classification technique for urban green space by using highresolution remote sensing images. Method First,we improved the U-Net model to obtain the U-Net + model. The main structure of U-Net + is composed of an encoder and a decoder that can achieve end-to-end training. The encoding channel realizes the multi-scale feature recognition of an image through four-time maximum pooling,and the decoding channel restores the position and detailed information of an image through upsampling. The network uses skip connection to realize the fusion of feature information with the same scale at different levels,overcoming accuracy loss caused by upsampl
作者
徐知宇
周艺
王世新
王丽涛
王振庆
Xu Zhiyu;Zhou Yi;Wang Shixin;Wang Litao;Wang Zhenqing(Aerospace Information Research Institute,Chinese Academy of Sciences,Beijing 100094,China;University of Chinese Academy of Sciences,Beijing 100049,China)
出处
《中国图象图形学报》
CSCD
北大核心
2021年第3期700-713,共14页
Journal of Image and Graphics
基金
国家重点研发计划项目(2017YFB0504000)。
关键词
城市绿地
卷积神经网络
U-Net
高分遥感
语义分割
urban green space
convolutional neural network(CNN)
U-Net
high-resolution remote sensing
semantic segmentation
