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高斯正反算程序
- 利用高斯正反算进行坐标的转换,测绘专业必备之程序。-use Gaussian count for positive and negative coordinates of the conversion, mapping professionals required procedure.
gaosi.经纬度与平面坐标高斯正反转换
- 经纬度与平面坐标高斯正反转换,通过经纬度坐标正变换到平面坐标,把平面坐标转换成经纬度坐标,还包含了通过经纬度坐标计算在球面上两点的距离,Latitude and longitude coordinates of the plane, positive and negative Gaussian transformation
GUSSzhengfangshuang.rar
- 实现高斯投影面的正反算,及相关子午线收敛角投影长度比的计算,精度为0.001m,0.0001秒,投影面the pros and cons of the realization of Gaussian operator, and related convergence angle radial projection length calculation, accuracy of 0.001m, 0.0001 seconds
gaosi
- 用vb编写的进行高斯正反算程序,可进行任意度带的经纬度和大地坐标之间的转换-Vb prepared to use positive and negative Gaussian counting procedures can be carried out with any degree of latitude and longitude and geodetic coordinate conversion between
Guass
- 大地测量学所学知识,高斯正反算的实现,环境是基于MAtlab的-The knowledge of geodesy, considered the positive and negative Gaussian realization of the environment is based on the MAtlab
54cord
- 54坐标系高斯正反算及换带,54坐标系高斯正反算及换带.-54coord,...........................
gauss
- 简单的高斯正反算,高斯计算就包括两个在内-A simple count of positive and negative Gaussian, Gaussian, including two, including the calculation
GAUSS_VC
- 高斯正反算界面程序,可以通过不同椭球参数的选择实现不同椭球的高斯正反算-Gaussian operator can be both positive and negative, but it can not be carried out batch
39709581Projection_Gauss1.1
- 基本的高斯正反算程序代码,欢迎下载使用-Gauss considered the basic pros and cons of code! ! !
Gauss_Zhengfansuan
- 一个可以计算高斯正反算的小程序,可在vc++中实现!-Can calculate the positive and negative Gaussian operator
gausstrans
- 基于Matlab的高斯正反算源代码,绝对准确-Positive and negative Gaussian operator code
高斯坐标正反算
- 高斯坐标正反算,给出高斯平面坐标可以反算出大地经纬度坐标。给出大地坐标可以算出高斯平面坐标(Gauss coordinate inversion is realized)
实验7 高斯邻带换算
- 高斯投影邻带换算的程序,利用几个程序进而进行对高斯投影的换算计算(Gauss projection adjacent band conversion procedures)
GaussTrans
- 高斯正反算的实现:大地坐标转换为高斯坐标,高斯平面转换为大地坐标。(Gauss realization of positive and negative calculation: geodetic coordinates converted to Gauss coordinates, Gauss plane converted to geodetic coordinates.)
高斯正反算
- 高斯正反算,投影还贷计算,xy算相互经纬度,也能反算,首先选择参考椭球(Positive and negative is gauss projection repayment calculation, xy calculate longitude and latitude, each other can be calculated, first select the reference ellipsoid)
高斯正反算
- 在大地测量学中,坐标系分为两大类:地心坐标系和参心坐标系。地心坐标系是坐标系原点与地球质心重合的坐标系,参心坐标系是坐标系原点位于参考椭球体中心,但不与地球质心重合的坐标系。我国使用的1954北京坐标系,1980西安坐标系都属于参心坐标系。GPS中使用的世界大地坐标系WGS-84属于地心坐标系,我国最近开始启用的中国大地坐标系2000(即CGCS2000),也属于地心坐标系。以上两大类坐标系都有下列几种表达形式:1.空间大地坐标系,即大地经纬度(B,L,H)形式2.空间直角坐标系,即三维空间坐标
高斯变换
- 高斯投影正反算及相邻带的坐标换算程序,用于高斯坐标的正算和反算。(The positive back calculation of Gauss projection and the coordinate conversion program of the adjacent zone)
高斯正反算程序与公式
- 高斯平面坐标转换到大地平面坐标,大地平面坐标转换到高斯投影平面的坐标(Gauss plane coordinates are converted to geodetic plane coordinates and geodetic plane coordinates are converted to gauss projection plane coordinates)
高斯投影正反算-VB
- 测绘工程中常用到的椭球坐标与高斯平面坐标的正反算,包括邻带换算。(The positive and negative calculation of ellipsoidal coordinates and Gauss plane coordinates commonly used in surveying and mapping projects, including conversion of adjacent bands.)
高斯正反算文件
- 大地测量学中的高斯主题正反算在matlab上的实现,即将大地坐标和直角坐标相互转换的文件(Gaussian theme positive and negative code, transform the coordinates in the geodetic coordinate system to the Cartesian coordinate system)