搜索资源列表
single(VC++)
- 摄影测量利用空间后方交汇的方法编写的可以从相片像平面坐标获得该点实际的物方坐标,得到空间定位的数据-Photogrammetry use of space behind the convergence of the method can be prepared from photographs as the plane coordinates access point to the actual coordinates of objects, from space positioning dat
CoorTrans
- 大地坐标系通过高斯影射为平面直接坐标的函数-geodetic coordinates through Gaussian alluding directly to the plane coordinates the function
CA_GEN
- 这是GPS接收机,基带处理模块中CA码产生模块设计代码,用于码跟踪环。代码设计巧妙,采用了后台机配合的方式,可以灵活产生各卫星的PN码,节约了触发器资源-This is the GPS receiver, Baseband Processing Module CA code generator module design code for the code tracking loop. Code so cleverly designed and adopted a background with
koordidaten
- 将球面坐标投影至平面进行计算。包括麦卡拖坐标系,笛卡尔坐标系-The spherical coordinates to plane projection is calculated. Including McCartney dragged coordinate system, Cartesian coordinate system
angle
- 计算车载gps导航模块中电子围栏模块和电子报警,包括平面的和三维的电子地图的给模块的源代码-Car gps navigation module calculating electronic fence and electronic alarm module, including the plane and three-dimensional digital map of the source code to the module
china_county_makers
- 坐标系统的介绍 1.1 WGS—84坐标系统 WGS—84坐标系是目前GPS所采用的坐标系统,是由美国国防部制图局建立,于1987年取代了当时GPS所采用的坐标系统(WGS—72坐标系统)而成为GPS目前所使用的坐标系统。 WGS—84坐标系的坐标原点位于地球的质心,Z轴指向BIHl984.0定义的协议地球极方向,X轴指向BIHl984.0的起始子午面和赤道的交点,Y轴与X轴和Z轴构成右手系。WGS—84系所采用椭球参数为:a=6378138m;f=1/298.257223563。
GPS-RTK
- 本文结合平面、高程质量检核标准分离的原则, 探讨了提高GPS 高程拟合精度的问题-This paper plane, elevation standard quality check the principle of separation of improving the fitting precision of GPS elevation question
bian
- 平面网平差 高程网平差 秩亏网平差 gps网平差 自由网平差-Network adjustment elevation plane rank net adjustment net loss adjustment gps network adjustment free network adjustment
The-geodetic-course-design
- 1.不同空间直角坐标系之间的7参数变换 2.不同空间直角坐标系的4参数变换 3.椭球膨胀法和椭球平移法进行高程投影面的相关平面坐标就散 4GPS大地高转换为正常高的拟合计算-1. Different space between the right Angle coordinate system 7 parameter transformation 2. Different space of 4 right Angle coordinate system parameter tra
BLtoXY
- 把WGS-84坐标系内的经、纬度数据换算成以米为单位的北京-54坐标,然后再进行高斯平面投影得到X、Y-Converted into WGS-84 coordinate system of longitude and latitude data in meters Beijing-54 coordinates, then the Gaussian plane projection to get X-, Y-
GPS-zuobiaozhuanhuan
- GPS坐标转换源码,三维坐标转换大地坐标、平面坐标-Geodetic coordinates GPS coordinates conversion source, three-dimensional coordinate conversion, coordinate plane
Gaussian-negative-balance
- 大地测量中高斯正反算程序,实现投影过程中大地坐标到平面坐标的转换,很实用-Geodetic positive and negative Gaussian computer program, the process of realization projection plane coordinates to geodetic coordinates conversion, it is practical
SatCoord-change
- 对GPS和GLONASS的时间系统和坐标系统进行相互转化,实现高斯平面坐标系与大地坐标系的互换,实现不同参考原点的平面直角坐标间的互换。-GPS and GLONASS time systems and coordinate systems into each other, interchangeable Gauss plane coordinates and geodetic coordinate system, interchangeable reference to the origin
1
- 用matlab编程,把经纬度转换为高斯平面坐标的代码-Coordinates turn Gauss plane coordinate code
dsbqg
- Matching Pursuit and orthogonal matching pursuit, Least-squares algorithm to fit a three-dimensional plane, Genetic algorithms using MATLAB path planning.
mbnnx
- It can be directly calculated multi-fractal spectrum, Can dynamically adjust the parameters of the operating environment, Computation Method D phononic bandgap plane wave.
byydh
- Modern signal processing jobs when the graduate, Least-squares algorithm to fit a three-dimensional plane, MIT Artificial Intelligence Laboratory identification of the target source.
pei_ex31
- Based on piecewise nonlinear weight value Pso algorithm, Computation Method D phononic bandgap plane wave, Dimensional phononic crystals FDTD method calculation examples band gap.
8766
- Using common plane wave expansion method, There are detailed notes, Based on wavelet transform digital watermarking algorithm matlab code.
cq627
- B Based on matlab platform, Least-squares algorithm to fit a three-dimensional plane, Verification is available.