Space electronic reconnaissance : localization principles and technologies /
"Presents the theories and applications of determining the position of an object in space through the use of satellites"--
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés Chino |
Publicado: |
Singapore :
John Wiley & Sons Inc.,
2014.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright; Contents; Preface; Acknowledgments; Acronyms; Chapter 1 Introduction to Space Electronic Reconnaissance Geolocation; 1.1 Introduction; 1.2 An Overview of Space Electronic Reconnaissance Geolocation Technology; 1.2.1 Geolocation of an Emitter on the Earth; 1.2.2 Tracking of an Emitter on a Satellite; 1.2.3 Geolocation by Near-Space Platforms; 1.3 Structure of a Typical SER System; References; Chapter 2 Fundamentals of Satellite Orbit and Geolocation; 2.1 An Introduction to the Satellite and Its Orbit; 2.1.1 Kepler's Three Laws.
- 2.1.2 Classification of Satellite Orbits2.2 Orbit Parameters and State of Satellite; 2.2.1 Orbit Elements of a Satellite; 2.2.2 Definition of Several Arguments of Perigee and Their Correlations; 2.3 Definition of Coordinate Systems and Their Transformations; 2.3.1 Definition of Coordinate Systems; 2.3.2 Transformation between Coordinate Systems; 2.4 Spherical Model of the Earth for Geolocation; 2.4.1 Regular Spherical Model for Geolocation; 2.4.2 Ellipsoid Model of the Earth; 2.5 Coverage Area of a Satellite; 2.5.1 Approximate Calculation Method for the Coverage Area.
- 2.5.2 Examples of Calculation of the Coverage Area2.5.3 Side Reconnaissance Coverage Area; 2.6 Fundamentals of Geolocation; 2.6.1 Spatial Geolocation Plane; 2.6.2 Spatial Line of Position (LOP); 2.7 Measurement Index of Geolocation Errors; 2.7.1 General Definition of Error; 2.7.2 Geometrical Dilution of Precision (GDOP); 2.7.3 Graphical Representation of the Geolocation Error; 2.7.4 Spherical Error Probability (SEP) and Circular Error Probability (CEP); 2.8 Observability Analysis of Geolocation; References; Chapter 3 Single-Satellite Geolocation System Based on Direction Finding.
- 3.1 Direction Finding Techniques3.1.1 Amplitude Comparison DF Technique; 3.1.2 Interferometer DF Technique; 3.1.3 Array-Based DF Technique; 3.1.4 Other DF Techniques; 3.2 Single-Satellite LOS Geolocation Method and Analysis; 3.2.1 Model of LOS Geolocation; 3.2.2 Solution of LOS Geolocation; 3.2.3 CRLB of the LOS Geolocation Error; 3.2.4 Simulation and Analysis of the LOS Geolocation Error; 3.2.5 Geometric Distribution of the LOS Geolocation Error; 3.3 Multitimes Statistic LOS Geolocation; 3.3.1 Single-Satellite Multitimes Triangulation.
- 3.3.2 Average for Single-Satellite Multitimes Geolocation3.3.3 Weighted Average for Single-Satellite Multitimes Geolocation; 3.3.4 Simulation of Single-Satellite LOS Geolocation; 3.4 Single HEO Satellite LOS Geolocation; 3.4.1 Analysis of Single GEO Satellite LOS Geolocation; 3.4.2 Geosynchronous Satellite Multitimes LOS Geolocation; References; Chapter 4 Multiple Satellites Geolocation Based on TDOA Measurement; 4.1 Three-Satellite Geolocation Based on a Regular Sphere; 4.1.1 Three-Satellite Geolocation Solution Method; 4.1.2 Multisatellite TDOA Geolocation Method.