Abstract

Saliency detection has been revealed an effective and reliable approach to extract the region of interest (ROI) in remote sensing images. However, most existing saliency detection methods employing multiple saliency cues ignore the intrinsic relationship between different cues and do not distinguish the diverse contributions of different cues to the final saliency map. In this paper, we propose a novel self-adaptively multiple feature fusion model for saliency detection in remote sensing images to take advantage of this relationship to improve the accuracy of ROI extraction. First, we take multiple feature channels, namely colour, intensity, texture and global contrast into consideration to produce primary feature maps. Particularly, we design a novel method based on dual-tree complex wavelet transform for remote sensing images to generate texture feature pyramids. Then, we introduce a novel self-adaptive multiple feature fusion method based on low-rank matrix recovery, in which the significances of feature maps are ranked by the low rank constraint recovery, and subsequently multiple features’ contributions are allocated adaptively to produce the final saliency map. Experimental results demonstrate that our proposal outperforms the state-of-the-art methods.