椭球膨胀法在高海拔地区建立独立坐标系的应用

王振方

doi:10.20265/j.cnki.issn.1007-2993.2024-0206

椭球膨胀法在高海拔地区建立独立坐标系的应用

doi: 10.20265/j.cnki.issn.1007-2993.2024-0206

王振方

中航勘察设计研究院有限公司，北京　100098

详细信息

作者简介:
王振方，男，1982年生，硕士，高级工程师，主要从事工程测量工作。E-mail：wzf0373@126.com

中图分类号: P226
计量
- 文章访问数: 19
- HTML全文浏览量: 5
- PDF下载量: 2
- 被引次数: 0
出版历程
- 收稿日期: 2024-05-15
- 修回日期: 2024-08-27
- 录用日期: 2024-10-29
- 刊出日期: 2025-06-09

Ellipsoid expansion method in establishing independent coordinate system in high-altitude area

Wang Zhenfang

AVIC Institute Geotechnical Engineering Co., Ltd., Beijing 100098, China

摘要

摘要: 分析工程控制网投影长度变形产生的原因及消除长度变形的方法，详述椭球膨胀法原理和计算椭球长半径变化量的4种方法。以高海拔地区某工程GNSS控制网为实例，采用平均曲率半径法、卯酉曲率半径法、平面解析法、广义微分法4种不同的椭球长半径变化量计算方法建立独立坐标系，比较分析4种方法计算得出的椭球长半径变化量、控制点的纬度及大地高变化量，全站仪实测距离的验证结果表明4种计算方法获得的高斯平面坐标精度基本一致，但平面解析法与广义微分法最严密，结论可为高海拔地区建立独立坐标系提供参考。
- 长度变形 /
- 椭球膨胀法 /
- 高海拔 /
- 独立坐标系
Abstract: The causes of projection length deformation in engineering control networks and the methods to eliminate length deformation were analyzed. The principle of the ellipsoid expansion method and four methods for calculating the change in ellipsoid length radius were detailed. Taking the GNSS control network of a certain project in a high-altitude area as an example, four different methods for calculating the change in ellipsoid length radius, including the average curvature radius method, the Mao You curvature radius method, the plane analysis method, and the generalized differentiation method, were used to establish an independent coordinate system. The changes in ellipsoid length radius, latitude of control points, and ground height calculated by the four methods were compared and analyzed, and verified by the measured distance of the total station. It is believed that the Gaussian plane coordinate accuracy obtained by the four calculation methods is the same. Still, the plane analysis method and the generalized differentiation method are the most rigorous. The conclusion can provide a reference for establishing independent coordinate systems in high-altitude areas.
- length deformation /
- ellipsoidal expansion method /
- high-altitude area /
- independent coordinate system

HTML全文

表 1 椭球长半轴改变量

	平均曲率半径法	卯酉曲率半径法	平面解析法	广义微分法
椭球长半轴改变量/m	3855.4846534	3846.2771717	3853.7264424	3853.7264317

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表 2 测区中心点及5个控制点的纬度及大地高变化量

点号	变化量	平均曲率半径法	卯酉曲率半径法	平面解析法	广义微分法
中心点	纬度/（″）	0.18930877	0.18885667	0.18922244	0.18922244
中心点	大地高/m	−1.75652156	7.44205677	−0.00001077	0.00000000
K1	纬度/（″）	0.18933703	0.18888487	0.18925069	0.18925069
K1	大地高/m	−1.75463028	7.44394353	0.00187965	0.00189042
K2	纬度/（″）	0.18932270	0.18887057	0.18923636	0.18923636
K2	大地高/m	−1.75558969	7.44298641	0.00092067	0.00093144
K3	纬度/（″）	0.18931672	0.18886460	0.18923038	0.18923038
K3	大地高/m	−1.75598989	7.44258717	0.00052066	0.00053143
K4	纬度/（″）	0.18929674	0.18884467	0.18921042	0.18921042
K4	大地高/m	−1.75732568	7.44125456	−0.00081453	−0.00080376
K5	纬度/（″）	0.18927062	0.18881861	0.18918430	0.18918430
K5	大地高/m	−1.75907177	7.43951265	−0.00255982	−0.00254905

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表 3 首级控制点的高斯平面坐标与CGCS2000下的高斯平面坐标差值

方法	K1		K2		K3		K4		K5
方法	ΔX/m	ΔY/m	ΔX/m	ΔY/m	ΔX/m	ΔY/m	ΔX/m	ΔY/m	ΔX/m	ΔY/m
平均曲率半径	2181.218	−2.065	2180.902	−2.026	2180.772	−1.490	2180.333	−1.606	2179.759	−1.730
卯酉圈半径法	2176.022	−2.060	2175.708	−2.021	2175.578	−1.486	2175.140	−1.602	2174.567	−1.725
平面解析法	2180.225	−2.064	2179.910	−2.024	2179.780	−1.489	2179.340	−1.605	2178.767	−1.728
广义微分法	2180.225	−2.064	2179.910	−2.024	2179.780	−1.489	2179.340	−1.605	2178.767	−1.728

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表 4 控制点间反算距离与实测距离对比表

距离起始点	不同坐标系下控制点间的反算距离/m				S₀（全站仪实测距离）/m	(S₁-S₀) /m	(S₂-S₀) /m	(S₃-S₀) /m	(S₄-S₀) /m
距离起始点	S₁(平均曲率半径法)	S₂(卯酉圈半径法)	S₃(平面解析法)	S₄(广义微分法)	S₀（全站仪实测距离）/m	(S₁-S₀) /m	(S₂-S₀) /m	(S₃-S₀) /m	(S₄-S₀) /m
K1—K2	525.179	525.178	525.179	525.179	525.187	−0.008	−0.009	−0.008	−0.008
K2—K3	914.726	914.724	914.725	914.725	914.742	−0.016	−0.018	−0.017	−0.017
K3—K4	750.893	750.892	750.893	750.893	750.905	0.008	0.007	0.008	0.008
K4—K5	969.721	969.719	969.721	969.721	969.739	−0.018	−0.02	−0.018	−0.018

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参考文献(15)

[1]	中华人民共和国住房和城乡建设部. 工程测量标准: GB 50026–2020[S]. 北京: 中国计划出版社, 2021. (Ministry of Housing and Urban Rural Development of the People’s Republic of China. Standard for engineering surveying: GB 50026–2020[S]. Beijing: China Planning Press, 2021. (in Chinese) Ministry of Housing and Urban Rural Development of the People’s Republic of China. Standard for engineering surveying: GB 50026–2020[S]. Beijing: China Planning Press, 2021. (in Chinese)
[2]	中华人民共和国住房和城乡建设部. 城市测量规范: CJJ/T 8–2011[S]. 北京: 中国建筑工业出版社, 2012. (Ministry of Housing and Urban Rural Development of the People’s Republic of China. Code for urban survey: CJJ/T 8–2011[S]. Beijing: China Architecture & Building Press, 2012. (in Chinese) Ministry of Housing and Urban Rural Development of the People’s Republic of China. Code for urban survey: CJJ/T 8–2011[S]. Beijing: China Architecture & Building Press, 2012. (in Chinese)
[3]	宁殿民. 控制长度的变形理论与方法研究[J]. 测绘科学,2013,38(6):26-28. (NING D M. Study on theory of controlling length deformation[J]. Science of Surveying and Mapping,2013,38(6):26-28. (in Chinese) NING D M. Study on theory of controlling length deformation[J]. Science of Surveying and Mapping, 2013, 38（6）: 26-28. (in Chinese)
[4]	施一民. 建立区域坐标系问题的我见[J]. 测绘工程,2000,9(1):38-41. (SHI Y M. My opinion for establishing regional coordinate system[J]. Engineering of Surveying and Mapping,2000,9(1):38-41. (in Chinese) doi: 10.3969/j.issn.1006-7949.2000.01.008 SHI Y M. My opinion for establishing regional coordinate system[J]. Engineering of Surveying and Mapping, 2000, 9（1）: 38-41. (in Chinese) doi: 10.3969/j.issn.1006-7949.2000.01.008
[5]	海清. 通过椭球变换建立区域独立坐标系的方法[J]. 测绘与空间地理信息,2008,31(1):168-169. (HAI Q. The establishment of local independent coordinate system through ellipsoid transformation[J]. Geomatics & Spatial Information Technology,2008,31(1):168-169. (in Chinese) doi: 10.3969/j.issn.1672-5867.2008.01.051 HAI Q. The establishment of local independent coordinate system through ellipsoid transformation[J]. Geomatics & Spatial Information Technology, 2008, 31（1）: 168-169. (in Chinese) doi: 10.3969/j.issn.1672-5867.2008.01.051
[6]	盛浩润, 宫雨生, 车奇峰, 等. 高斯投影对长度变形的影响及自动化解算方法[J]. 测绘与空间地理信息,2024,47(2):36-38. (SHENG H R, GONG Y S, CHE Q F, et al. Effect of Gaussian projection on length deformation and its automatic solution[J]. Geomatics & Spatial Information Technology,2024,47(2):36-38. (in Chinese) doi: 10.3969/j.issn.1672-5867.2024.02.011 SHENG H R, GONG Y S, CHE Q F, et al. Effect of Gaussian projection on length deformation and its automatic solution[J]. Geomatics & Spatial Information Technology, 2024, 47（2）: 36-38. (in Chinese) doi: 10.3969/j.issn.1672-5867.2024.02.011
[7]	徐康, 邓鹏琦, 胡丹. 基于CGCS2000椭球的遂宁市独立坐标系的建立与优化探讨[J]. 城市勘测,2023(4):104-109. (XU K, DENG P Q, HU D. Discussion on establishment and optimization of suining independent coordinate system based on CGCS2000 ellipsoid[J]. Urban Geotechnical Investigation & Surveying,2023(4):104-109. (in Chinese) doi: 10.3969/j.issn.1672-8262.2023.04.026 XU K, DENG P Q, HU D. Discussion on establishment and optimization of suining independent coordinate system based on CGCS2000 ellipsoid[J]. Urban Geotechnical Investigation & Surveying, 2023（4）: 104-109. (in Chinese) doi: 10.3969/j.issn.1672-8262.2023.04.026
[8]	王文利, 张涛, 刘和平, 等. 高程抵偿面与中央子午线的最佳选取方法[J]. 测绘标准化,2022,38(4):6-14. (WANG W L, ZHANG T, LIU H P, et al. Optimal selection method of height compensation plane and central meridian[J]. Standardization of Surveying and Mapping,2022,38(4):6-14. (in Chinese) WANG W L, ZHANG T, LIU H P, et al. Optimal selection method of height compensation plane and central meridian[J]. Standardization of Surveying and Mapping, 2022, 38（4）: 6-14. (in Chinese)
[9]	刘继光, 房大为, 张凤录. 区域独立坐标系建立方法及变形分析[J]. 北京测绘,2013(5):50-53,64. (LIU J G, FANG D W, ZHANG F L. The establishing method and deformation analysis about area independent coordinate system[J]. Beijing Surveying and Mapping,2013(5):50-53,64. (in Chinese) doi: 10.3969/j.issn.1007-3000.2013.05.013 LIU J G, FANG D W, ZHANG F L. The establishing method and deformation analysis about area independent coordinate system[J]. Beijing Surveying and Mapping, 2013（5）: 50-53,64. (in Chinese) doi: 10.3969/j.issn.1007-3000.2013.05.013
[10]	秦瑞超, 张兵, 盛庆伟. 高海拔区域工程控制网的建立与分析——以青海某选煤厂工程为例[J]. 北京测绘,2015(6):122-125. (QIN R C, ZHANG B, SHENG Q W. Establishment and analysis of engineering control network in high altitude area——take a coal separating plant project in Qinghai as an example[J]. Beijing Surveying and Mapping,2015(6):122-125. (in Chinese) doi: 10.3969/j.issn.1007-3000.2015.06.032 QIN R C, ZHANG B, SHENG Q W. Establishment and analysis of engineering control network in high altitude area——take a coal separating plant project in Qinghai as an example[J]. Beijing Surveying and Mapping, 2015（6）: 122-125. (in Chinese) doi: 10.3969/j.issn.1007-3000.2015.06.032
[11]	符彦, 王剑辉. 椭球变化法在现状工程坐标系建立中的选定研究[J]. 甘肃科学学报, 2019, 31(3): 28-34. (FU Y, WANG J H. Research on selection of ellipsoid transformation methods in establishment of the coordinate system for linear projects[J]. Journal of Gansu Sciences, 2019, 31(3): 28-34. (in Chinese) FU Y, WANG J H. Research on selection of ellipsoid transformation methods in establishment of the coordinate system for linear projects[J]. Journal of Gansu Sciences, 2019, 31(3): 28-34. (in Chinese)
[12]	刘周巍, 朱啟成, 罗麒杰, 等. 高海拔地区投影变形处理方法适用性研究[J]. 昆明冶金高等专科学校学报,2024,40(2):33-38. (LIU Z W, ZHU Q C, LUO Q J, et al. Research and analysis on the applicability of projection deformation processing methods in high altitude areas[J]. Journal of Kunming Metallurgy College,2024,40(2):33-38. (in Chinese) doi: 10.3969/j.issn.1009-0479.2024.02.006 LIU Z W, ZHU Q C, LUO Q J, et al. Research and analysis on the applicability of projection deformation processing methods in high altitude areas[J]. Journal of Kunming Metallurgy College, 2024, 40（2）: 33-38. (in Chinese) doi: 10.3969/j.issn.1009-0479.2024.02.006
[13]	胡毅. 椭球膨胀法在线路工程坐标系建立中的应用[J]. 河南科技,2024,51(9):66-69. (HU Y. Application of ellipsoid expansion method in the establishment of linear engineering coordinate system[J]. Henan Science and Technology,2024,51(9):66-69. (in Chinese) HU Y. Application of ellipsoid expansion method in the establishment of linear engineering coordinate system[J]. Henan Science and Technology, 2024, 51（9）: 66-69. (in Chinese)
[14]	刘旭. 高海拔地区基于椭球膨胀法和GNSS技术建立地方坐标系的方法[J]. 工程勘察,2020,48(4):67-71. (LIU X. The method of establishing local coordinate system based on ellipsoidal expansion and GNSS technique in high altitude area[J]. Geotechnical Investigation & Surveying,2020,48(4):67-71. (in Chinese) LIU X. The method of establishing local coordinate system based on ellipsoidal expansion and GNSS technique in high altitude area[J]. Geotechnical Investigation & Surveying, 2020, 48（4）: 67-71. (in Chinese)
[15]	李文军, 李军, 胡军. 椭球膨胀法在建立带状工程坐标系的应用研究[J]. 地理空间信息,2020,18(12):104-107. (LI W J, LI J, HU J. Applicability research on ellipsoid expansion method in establishing independent coordinate system of linear engineering[J]. Geospatial Information,2020,18(12):104-107. (in Chinese) doi: 10.3969/j.issn.1672-4623.2020.12.026 LI W J, LI J, HU J. Applicability research on ellipsoid expansion method in establishing independent coordinate system of linear engineering[J]. Geospatial Information, 2020, 18（12）: 104-107. (in Chinese) doi: 10.3969/j.issn.1672-4623.2020.12.026