Abstract

The urban data provides a wealth of information that can support the life and work for people. In this work, we research the object saliency detection in optical remote sensing images, which is conducive to the interpretation of urban scenes. Saliency detection selects the regions with important information in the remote sensing images, which severely imitates the human visual system. It plays a powerful role in other image processing. It has successfully made great achievements in change detection, object tracking, temperature reversal, and other tasks. The traditional method has some disadvantages such as poor robustness and high computational complexity. Therefore, this paper proposes a deep multiscale fusion method via low-rank sparse decomposition for object saliency detection in optical remote sensing images. First, we execute multiscale segmentation for remote sensing images. Then, we calculate the saliency value, and the proposal region is generated. The superpixel blocks of the remaining proposal regions of the segmentation map are input into the convolutional neural network. By extracting the depth feature, the saliency value is calculated and the proposal regions are updated. The feature transformation matrix is obtained based on the gradient descent method, and the high-level semantic prior knowledge is obtained by using the convolutional neural network. The process is iterated continuously to obtain the saliency map at each scale. The low-rank sparse decomposition of the transformed matrix is carried out by robust principal component analysis. Finally, the weight cellular automata method is utilized to fuse the multiscale saliency graphs and the saliency map calculated according to the sparse noise obtained by decomposition. Meanwhile, the object priors knowledge can filter most of the background information, reduce unnecessary depth feature extraction, and meaningfully improve the saliency detection rate. The experiment results show that the proposed method can effectively improve the detection effect compared to other deep learning methods.

Highlights

  • With the rapid promotion of information technology, urban data has become one of the important information sources for human beings

  • The PR curve, F-measure, and mean absolute error (MAE) of the saliency map are compared to evaluate the effect of saliency detection to select a better segmentation scale

  • We conduct experiments on some optical remote sensing images based on urban data, namely airplane (512 × 512 pixel), playground (1024 × 1024 pixel), boat (1024 × 1024 pixel), vehicle (512 × 512 pixel), and cloud (2048 × 2048 pixel)

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Summary

Introduction

With the rapid promotion of information technology, urban data has become one of the important information sources for human beings. The amount of information received by people has increased exponentially [1, 2]. How to select the object regions of human interest from the mass of image information in urban becomes a significant research. Studies have found that under a complex scene, the human visual processing system will focus on several objects, named region of interest (ROI) [3]. ROI is relatively close to human visual perception. As the image pretreatment process, can be widely applied in remote sensing areas such as visual tracking, image classification, image segmentation, and target relocation

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