Abstract
Very high resolution (VHR) image change detection is challenging due to the low discriminative ability of change feature and the difficulty of change decision in utilizing the multilevel contextual information. Most change feature extraction techniques put emphasis on the change degree description (i.e., in what degree the changes have happened), while they ignore the change pattern description (i.e., how the changes changed), which is of equal importance in characterizing the change signatures. Moreover, the simultaneous consideration of the classification robust to the registration noise and the multiscale region-consistent fusion is often neglected in change decision. To overcome such drawbacks, in this paper, a novel VHR image change detection method is proposed based on sparse change descriptor and robust discriminative dictionary learning. Sparse change descriptor combines the change degree component and the change pattern component, which are encoded by the sparse representation error and the morphological profile feature, respectively. Robust change decision is conducted by multiscale region-consistent fusion, which is implemented by the superpixel-level cosparse representation with robust discriminative dictionary and the conditional random field model. Experimental results confirm the effectiveness of the proposed change detection technique.
Highlights
Remote sensing image change detection (CD) aims to identify the land cover changes from the coregistered multitemporal images
This paper proposes a supervised change detection approach for very high resolution (VHR) images
The sparse change descriptor integrates the change degree and change pattern description, which improves the discriminative ability of the change feature; it makes it robust to false changes
Summary
Remote sensing image change detection (CD) aims to identify the land cover changes from the coregistered multitemporal images. It has extensive applications such as damage assessment [1] and forest monitoring [2]. The change features are often organized based on visual features, like spectral feature, Gabor feature, and morphological feature. Such features try to describe the local structure of images. The filter-based features especially Gabor wavelet and morphological profiles have been proved to perform well on the task of change detection and hyperspectral classification [7, 11, 12]. The morphological profile (MP) feature [12] draws much attention due to the nonlinear nature of morphological operations
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