INVESTIGATION ON THE EFFECTS OF NUMBER OF COMMON POINTS IN 2D TRANSFORMATION PROBLEM

IF 3.1 Q2 ENGINEERING, GEOLOGICAL International Journal of Engineering and Geosciences Pub Date : 2019-06-01 DOI:10.26833/IJEG.446962
T. Öcalan
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引用次数: 4

Abstract

Coordinate transformation from one datum to another is the basic problem in geodesy. Generally, the problem may be expressed by converting coordinates in a cartesian coordinate system with defined origin provided by intersection of two axes into another system using mathematical equations. To compute the transformation parameters, sufficient number of coordinates of the common points should be known in two systems. The problem involves either 2D or 3D coordinate systems. Traditionally the commonly used model for coordinate transformation is the Least Squares (LS) method refers as to Helmert Transformation. This study aims to compare the performance of the spatial distribution and quantity of the common points in LS method for coordinate transformation problems. For this purpose, a geodetic network with 25 station points, whose coordinates are commonly known in two datum are used to compute the performance of the transformation parameters under the different scenarios. To compare the cases, the sum of the absolute coordinate differences provided by subtracting the original coordinates of test points from estimated coordinates by using transformation parameters. The results showed that increasing control points one by one to estimate the transformation parameters improve the results of the estimation and reliable transformation parameters have been estimated when a homogeneously distributed 8 points are taken as common points for about 1500 km 2 .
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二维变换问题中公共点数影响的研究
从一个基准到另一个基准的坐标变换是大地测量学中的基本问题。一般来说,这个问题可以通过用数学方程将直角坐标系中的坐标转换成另一个坐标系来表示,直角坐标系的原点由两个轴的交点提供。为了计算变换参数,需要知道两个系统中足够数量的公共点坐标。这个问题涉及2D或3D坐标系统。传统上常用的坐标变换模型是最小二乘(LS)方法,即Helmert变换。本研究旨在比较LS方法在坐标变换问题中公共点的空间分布和数量的表现。为此,我们使用一个包含25个站点的大地测量网,这些站点的坐标通常在两个基准面中已知,来计算不同场景下变换参数的性能。为了比较两种情况,使用变换参数从估计坐标中减去测试点的原始坐标所得到的绝对坐标差的和。结果表明,在以均匀分布的8个测点为公共测点的1500 km 2范围内,逐次增加测点来估计变换参数,可以提高变换参数的估计效果,得到可靠的变换参数。
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CiteScore
4.00
自引率
0.00%
发文量
12
审稿时长
30 weeks
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