Abstract
Land cover classification that uses very high resolution (VHR) remote sensing images is a topic of considerable interest. Although many classification methods have been developed, the accuracy and usability of classification systems can still be improved. In this paper, a novel post-processing approach based on a dual-adaptive majority voting strategy (D-AMVS) is proposed to improve the performance of initial classification maps. D-AMVS defines a strategy for refining each label of a classified map that is obtained by different classification methods from the same original image, and fusing the different refined classification maps to generate a final classification result. The proposed D-AMVS contains three main blocks. (1) An adaptive region is generated by gradually extending the region around a central pixel based on two predefined parameters (T1 and T2) to utilize the spatial feature of ground targets in a VHR image. (2) For each classified map, the label of the central pixel is refined according to the majority voting rule within the adaptive region. This is defined as adaptive majority voting. Each initial classified map is refined in this manner pixel by pixel. (3) Finally, the refined classified maps are used to generate a final classification map, and the label of the central pixel in the final classification map is determined by applying AMV again. Each entire classified map is scanned and refined pixel by pixel based on the proposed D-AMVS. The accuracies of the proposed D-AMVS approach are investigated with two remote sensing images with high spatial resolutions of 1.0 m and 1.3 m. Compared with the classical majority voting method and a relatively new post-processing method called the general post-classification framework, the proposed D-AMVS can achieve a land cover classification map with less noise and higher classification accuracies.
Highlights
Land cover classification based on remote sensing images plays an important role in providing information regarding the Earth’s surface [1,2,3,4]
We extend our previous research on general post-classification framework (GPCF) [19] and propose an approach called dual-adaptive majority voting strategy (D-AMVS)
Compared with the initial classified maps obtained by the MLC classifier, considerable noise can be reduced by the post-processing methods, namely, MV, GPCF, and the proposed D-AMVS
Summary
Land cover classification based on remote sensing images plays an important role in providing information regarding the Earth’s surface [1,2,3,4]. For many applications, such as urban vegetation mapping [5], aboveground biomass estimation in forests [6], urban flood mapping [7], and land-use analysis [8], underlying land cover information from remote sensing images is necessary. Very high resolution (VHR) remote sensing images are conveniently available and highly popular in land cover classification. Lv et al [19]
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