To deal with the problem of "curse of dimensionality" caused by high dimension and the underutilization of spatial contexture information in classification of hyperspectral images,a new spectral-spatial joint classification method based on edge-preserving filtering is proposed.The proposed method consists of the following four steps.Firstly,the hyperspectral image is divided into several subsets of bands.By extracting the principal component of each subset,a new low-dimcnsional feature set is constructed.Secondly,the pre-classification result,which is obtained by support vector machines with the new feature set,is represented as multiple initial probabilistic maps.Then edge-preserving filtering is operated on each initial probabilistic map to merge the spectral and spatial information.Finally,the class of each pixel is determined by the maximum value of the corresponding filtered probabilistic maps.The proposed algorithm is examined by the Indian Pines and Pavia University hyperspectral datasets.On the same experimental conditions,the proposed method achieves the highest classification accuracy and the lowest time consumption,demonstrating obvious advantages in hyperspectral image classification.%针对高光谱遥感影像分类过程中,高维数据引起的“维数灾难”以及空间邻域一致性信息没有得到充分利用的问题,提出一种基于边缘保持滤波(Edge-preserving filtering,EPF)的高光谱影像光谱-空间联合分类算法.该算法首先进行波段子集划分和主成分提取,构造新的低维特征集,在保存影像结构信息的前提下降低数据维度;其次利用支持向量机(Support vector machine,SVM)获得低维特征集的初始分类概率图;然后利用原始影像主成分对初始分类概率图进行边缘保持滤波,融合光谱信息和空间信息;最后根据滤波后分类概率图对应像素点值的大小确定每个像素的类别.在Indian Pines和Pavia University两组高光谱数据上进行仿真实验,相同实验条件下,本文算法都获得最高分类精度和最少的时间消耗.仿真结果表明本文算法在高光谱遥感影像分类任务中具有明显的优势.
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