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Thesis "Fusion Engine and Practice of Geospatial Coordinate Reference System"
Full-text catalogue
abstract
English abstracts
The first chapter is introduction.
The research background of 1. 1
1.2 research status at home and abroad
1.3 research content
1.4 paper texture
Chapter II Fusion Engine of Geospatial Coordinate Reference System
2. 1 Geospatial Coordinate Reference System
2. 1. 1 coordinate system and benchmark
2. 1.2 coordinate reference system and geospatial coordinate reference system
2.2 Geospatial coordinate reference system fusion and its engine
2.2. 1 Geospatial Coordinate Reference System Fusion
2.2.2 Geospatial Coordinate Reference System Fusion Engine
2.3 Geospatial Coordinate Reference System Fusion Engine Architecture
2.3. 1 Fusion Engine External Relations
2.3.2 Internal structure of fusion engine
2.4 Overview of this chapter
Chapter III Coordinate Transformation
3. 1 Basic calculation formula
3. 1. 1 Earth ellipsoid and its basic parameters
3. 1.2 Meridian arc length and datum latitude
3.2 Transformation between geodetic coordinate system and geodetic rectangular coordinate system
3.2. 1 geodetic coordinate system is converted into geodetic rectangular coordinate system.
3.2.2 Convert geodetic rectangular coordinate system into geodetic coordinate system.
3.3 Common map projection conversion
Gauss-Kruger projection
mercator projection
Equiaxed conic projection
3.4 Overview of this chapter
Chapter IV Coordinate Transformation
4. 1 Parametric coordinate system and geocentric coordinate system
4. 1. 1 parameterized central coordinate system
4. 1.2 geocentric coordinate system
4.2 Transformation Model of Geospatial Cartesian Coordinate Reference System
4.2. 1 three-parameter similarity transformation model
4.2.2 Seven-parameter similarity transformation model
4.2.3 Other models and model analysis
4.3 geodetic coordinate reference system transformation model
4.3. 1 generalized geodetic coordinate differential formula
4.3.2 Practical formula for geodetic coordinate transformation
4.3.3 Analysis of Geodetic Coordinate Transformation Method
4.4 Solution and use of conversion parameters
4.4. 1 transformation parameter solution
4.4.2 Using conversion parameters
4.5 Height system and its transformation
4.5. 1 Geoid and Height System
4.5.2 Elevation conversion
4.6 Overview of this chapter
Chapter V Geospatial Coordinate Reference System of China and Its Neighboring Countries
5. 1 China Geospatial Coordinate Reference System
5. 1. 1 Continental Geospatial Coordinate Reference System
5. 1.2 Taiwan Province Province Geospatial Coordinate Reference System
5.2 American Geospatial Coordinate Reference System
5.2. 1 Inheritance of geodetic datum and elevation datum
5.2.2 Map Projection and MGRS
5.3 Geospatial Coordinate Reference System of Japan and South Korea
5.3. 1 Japan Geospatial Coordinate Reference System
5.3.2 Korean Geospatial Coordinate Reference System
Conversion parameter
5.4 Indian Geospatial Coordinate Reference System
Indian Geospatial Coordinate Reference System
Conversion parameter
Section 5.5 of this chapter
Chapter VI Practice of Fusion Engine of Geospatial Coordinate Reference System
6. Software implementation of1engine
6. 1. 1 software composition of the engine
6. 1.2 software code development and maintenance
6. 1.3 engine secondary development interface
6.2 Three sets of engine solutions
6.2. 1 discrete point solution
Grid diagram solution
Vector diagram solution
6.3 Engine Programming Code Optimization
6.3. 1 Principles and methods of programming code optimization
6.3.2 Programming Code Optimization Example
Section 6.4 of this chapter
Chapter VII Summary and Prospect
refer to