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矿山多源遥感图像像点位移测试系统设计
引用本文:然见多杰,宋元福,马福贵. 矿山多源遥感图像像点位移测试系统设计[J]. 计算机测量与控制, 2017, 25(12): 46-48, 53
作者姓名:然见多杰  宋元福  马福贵
作者单位:青海省第五地质矿产勘查院,西宁 810099,青海省第五地质矿产勘查院,西宁 810099,青海省第五地质矿产勘查院,西宁 810099
摘    要:针对矿山地形的起伏变化影响对其进行分析研究的准确性,提出矿上多源遥感图像像点位移测试系统的设计方法;结合GPS定位原理,选取遥感图像上某一时刻点作为测试点,对拍摄得到的矿山图像和电子测试系统各触点之间的距离进行计算,进而得到测试点具体坐标位置,将其与测试点真实现场坐标相对比,实现矿山多源遥感图像像点位移的测试;通过实验证明,所设计的测试系统可以高精度实现对遥感图像像点位移的测试,有效减小了矿山地形变化带来的遥感图像研究误差。

关 键 词:多源遥感图像  测试技术
收稿时间:2017-09-01
修稿时间:2017-10-02

Research on Key Technology of Mine Visualization Low Altitude Remote Sensing Image Mapping
Ranjian Duojie,Song Yuanfu and Ma Fugui. Research on Key Technology of Mine Visualization Low Altitude Remote Sensing Image Mapping[J]. Computer Measurement & Control, 2017, 25(12): 46-48, 53
Authors:Ranjian Duojie  Song Yuanfu  Ma Fugui
Affiliation:Fifth exploration institute of geology and mineral resources in qinghai province,Xining 810099,China,Fifth exploration institute of geology and mineral resources in qinghai province,Xining 810099,China and Fifth exploration institute of geology and mineral resources in qinghai province,Xining 810099,China
Abstract:It is possible to improve the matching accuracy of the mine image and the actual situation, to enhance the detail of the mine surveying and mapping, and to reduce the problems such as the actual development and failure of the mine due to the low efficiency of the surveying and mapping. At present, it is impossible to meet the needs of modern development by using the theodolite to measure the angle and distance of the survey area. There is a real problem that can not reflect the real situation of the mine in real time, and it is not suitable for large scale mapping. In this paper, low-altitude remote sensing is used to visualize the mining images, and the key technologies are studied. Firstly, the key technologies such as remote sensing sensor, unmanned aerial vehicle and visualization of surveying and mapping are analyzed in the low-altitude remote sensing image mapping. Secondly, the above-mentioned theory is combined with the GPS positioning principle, and the coordinate point corresponding to a certain time the reference point, and then according to the spatial distance of the intersection method, calculate the location of the point to be measured, and obtain the mine coordinates. Finally, the distance between the mining image and the electronic mapping system is calculated by using the Euclidean distance calculation formula. The result is combined with the mine image feature vector, and the image path is calculated by the determination of the gesture point and the distance algorithm. And through the code to achieve the image path displayed in the image of the drawing interface, to achieve the mining of the image. Experiments show that the proposed method can improve the degree of visibility and mapping of mine surveying and mapping to reduce the time and time of mapping.
Keywords:visualization low-altitude remote sensing image   mapping technology
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