邻域描述符分析提高遥感数据解译效率

S. Yamashkin, A. Yamashkin
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引用次数: 3

摘要

介绍。在评价地球表面时空结构时,地球遥感数据变得越来越重要。通过研究土地状态的时空综合表征问题,可以提高空间测量分析工具的有效性。本研究的目的是通过考虑邻近区域的不变描述符和动态描述符来提高遥感数据自动分析的准确性。材料与方法。为了提高遥感数据分类的精度,在对地球物理站点周边土地动态和不变状态数据进行系统分析的基础上,对土地状态的复杂时空特征进行了计算。这个过程的形式化包括计算一组邻域的数值描述符的方法:局部熵、局部范围、标准偏差、颜色矩、色调直方图和颜色组合。描述了一种基于Fisher向量计算复描述子的技术。为了验证该解决方案,制定了实验计划,并对初始数据进行了采样。结果。对该方法的认可以及在此基础上开发的算法作为一套程序在测试多边形系统上的实现表明,在不考虑邻域的情况下,分类准确率在81-89%之间变化,考虑邻域的情况下,分类准确率提高到91-97%。结果表明,当所分析的邻域半径显著增大时,分类精度会降低。结论。应用已开发的一套方案,可以快速实施空间系统建模,以便对土地利用情况进行专题测绘和分析紧急情况的发展。根据邻域描述符对土地进行分析的开发方法可以提高分类的准确性。
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Improving the Efficiency of Remote Sensing Data Interpretation by Analyzing Neighborhood Descriptors
Introduction. In evaluating the space-time structure of the Earth’s surface, the data of remote sensing of the Earth become more important. Increasing the effectiveness of space survey analysis tools is possible through studying the problem of obtaining an integrated space-time characterization of the state of lands. The purpose of this study is to improve the accuracy of the automated analysis of remote sensing data by taking into account the invariant and dynamic descriptors of the vicinity. Materials and Methods. In order to improve the accuracy of the remote sensing data classification, a computation of complex space-time characteristics of the state of the lands was conducted based on the system analysis of data characterizing the dynamic and invariant states of the territory surrounding the geophysical site. The formalization of this process includes methods for calculating a set of numerical descriptors of the neighborhood: local entropy, local range, standard deviation, color moment, histogram of hues, and color cortege. A technique for calculating a complex descriptor based on the Fisher vector is described. To approbate the solution, a plan for the experiment was drawn up and a sample of the initial data was sampled. Results. The approbation of the methodology and the algorithm developed on its basis, implemented as a set of programs, on the test polygon system showed a variation in the classification accuracy in the range of 81–89% (without regard to the neighborhood), and taking into account the neighborhood, it increases to 91–97%. It is revealed that a significant increase in the radius of the analyzed neighborhood leads to a decrease in the classification accuracy. Conclusions. The application of the developed set of programs allows for the rapid implementation of modeling of spatial systems for the purpose of thematic mapping of land use and analyzing the development of emergency situations. The developed methodology for analyzing lands with regard to the descriptors of the neighborhood makes it possible to improve the accuracy of classification.
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Mordovia University Bulletin
Mordovia University Bulletin MULTIDISCIPLINARY SCIENCES-
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