基于深度学习的遥感大数据图像多尺度分割方法

IF 0.5 Q4 COMPUTER SCIENCE, THEORY & METHODS

JOURNAL OF INTERCONNECTION NETWORKS Pub Date : 2022-12-31 DOI:10.1142/s021926592242004x

Huiping Li

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引用次数: 0

摘要

遥感图像分割是遥感信息解译的一种有效方法，是遥感数据信息处理的重要手段。传统的RSI分割方法存在分割精度差、相似性差度量低等问题。为此，我们提出了一种遥感大数据图像的多尺度分割(MSS)方法。首先对RSI分割尺度进行划分，利用直方图频带的定量值计算不同对象之间的相似度指数;其次，基于最大面积法对同一点的参数进行改进，确定RSI形状因子;最后，建立目标闭合模型，明确区域转换代价，并基于多尺度卷积神经网络对RSI进行动态分割;设计了RSI的MSS算法，得到了RSI的MSS方法。结果表明，该方法的最大相似差测度为0.648，相似差测度始终保持最大。RSI的最大召回率为0.954，最高召回率为0.988，表明本文方法的RSI分割准确率较好。

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Multi-Scale Segmentation Method of Remote Sensing Big Data Image Using Deep Learning

Remote sensing image (RSI) segmentation is an effective method to interpret remote sensing information and an important means of remote sensing data information processing. Traditional RSI segmentation methods have some problems such as poor segmentation accuracy and low similarity difference measurement. Therefore, we propose a multi-scale segmentation (MSS) method for remote sensing big data image. First, the segmentation scale of RSI is divided, and the quantitative value of histogram band is used to calculate the similarity index between different objects; Second, the parameters in the same spot are improved based on the maximum area method to determine the shape factor of RSI; Finally, the object closure model is established to clarify the region conversion cost, and the RSI is dynamically segmented based on Multi-scale convolutional neural networks; The MSS algorithm of RSI is designed, and the MSS method of RSI is obtained. The results show that the maximum similarity difference measure of the proposed method is 0.648, and the similarity difference measure always remains the largest. The maximum recall of RSI is 0.954, and the highest recall is 0.988, indicating that the RSI segmentation accuracy of the proposed method is good.

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来源期刊

JOURNAL OF INTERCONNECTION NETWORKS COMPUTER SCIENCE, THEORY & METHODS-

自引率

14.30%

发文量

121

期刊介绍： The Journal of Interconnection Networks (JOIN) is an international scientific journal dedicated to advancing the state-of-the-art of interconnection networks. The journal addresses all aspects of interconnection networks including their theory, analysis, design, implementation and application, and corresponding issues of communication, computing and function arising from (or applied to) a variety of multifaceted networks. Interconnection problems occur at different levels in the hardware and software design of communicating entities in integrated circuits, multiprocessors, multicomputers, and communication networks as diverse as telephone systems, cable network systems, computer networks, mobile communication networks, satellite network systems, the Internet and biological systems.