| Description |
1 online resource (xi, 243 pages) |
| Contents |
Preface; Contents; Abstract; 1 Overview of Classical Orbits; 1.1 Recursive Orbit; 1.1.1 Recursive Orbit: Definition; 1.1.2 Different Orbital Periods; 1.1.3 Geostationary Earth Orbit and Its Applications; 1.2 Sun-Synchronous Orbit; 1.2.1 Sun-Synchronous Orbit: Definition; 1.2.2 Sun-Synchronous Orbit: Characteristics; 1.2.3 Sun-Synchronous Regression Orbit and Its Applications; 1.3 Frozen Orbit; 1.3.1 Frozen Orbit: Definition; 1.3.2 Molniya Orbit and Its Applications; 1.4 Stay Orbit; 1.4.1 Stay Orbit: Definition; 1.4.2 Stay Orbit: Applications; 1.5 Summary |
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2 Special Space Orbit: Concept and Application2.1 Special Space Orbit: Concept; 2.1.1 Differences in Orbit Design Concepts; 2.1.2 Coupling of Orbit Control and Orbit Design; 2.1.3 Requirements for Special Space Application; 2.2 Types of Special Orbit; 2.2.1 Hovering Orbit; 2.2.2 Cruising Orbit; 2.2.3 Multi-Target Rendezvous Orbit; 2.2.4 Initiative Approaching Orbit; 2.2.5 Fast Responsive Orbit; 2.2.6 Earth Pole-Sitter Orbit; 2.3 Description of Special Space Orbit; 2.3.1 Orbit Element; 2.3.2 Non Singularity Orbit Elements; 2.3.3 Rectangular Coordinate Component; 2.4 Summary |
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3 Theory and Design Method of Hovering Orbit3.1 Hovering Orbit: Concept; 3.2 Design of Fixed-Point Hovering Orbit; 3.2.1 Dynamic Model; 3.2.1.1 Mathematical Model of the Impulse Thrust; 3.2.1.2 Mathematical Model of Continuous Thrust; 3.2.1.3 Feasibility Analysis; 3.2.2 Open-Loop Control; 3.2.3 Closed Loop Control; 3.2.3.1 Hovering Control Based on Lyapunov Method; 3.2.3.2 Simulation Analysis; 3.3 Design of Regional Hovering Orbit; 3.3.1 Analysis of Confined Area Configuration; 3.3.1.1 Description of Confined Area Configuration; 3.3.1.2 Typical Confined Area Configurations |
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3.3.1.3 Analysis of Confined Area Configuration3.3.2 Control of Regional Hovering Orbit; 3.3.2.1 Control Model of Relative Motion; 3.3.2.2 Constraints in Orbit Design; 3.3.3 Regional Hovering Orbit of Single-Pulse Trust; 3.3.3.1 Minimum Rate of Energy Consuming Mode; 3.3.3.2 Fixed Time Mode; 3.3.4 Regional Hovering Orbit of Multi-Pulse Trust; 3.4 Design of Displaced Geostationary Orbit; 3.4.1 Displaced Orbit Deviating from Orbit Plane; 3.4.2 Displaced Orbit in Orbit Plane; 3.4.3 Energy Analysis of Orbit Displacement; 3.5 Summary; 4 Theory and Design Method of Spiral Cruising Orbit |
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4.1 Spiral Cruising Orbit: Concept4.2 Precision Analysis of Relative Motion Model; 4.2.1 Accurate Relative Motion Dynamics Equation; 4.2.2 Simplification of Relative Motion Dynamics Equation; 4.2.3 Precision Analysis of Relative Motion Dynamics Model; 4.2.4 Analysis of Relative Motion Dynamics Model of Cruising Spacecraft; 4.3 Traversal Cruising Orbit: Design; 4.3.1 Design Method Based on Hill Equation; 4.3.2 Design Method Based on E/I Vector Method; 4.3.3 Design Constraint; 4.3.4 Simulation Analysis; 4.4 Design of the Round-Trip Itinerant Orbit; 4.4.1 Design Method; 4.4.2 Design Constraints |
| Summary |
This book focuses on the theory and design of special space orbits. Offering a systematic and detailed introduction to the hovering orbit, spiral cruising orbit, multi-target rendezvous orbit, initiative approaching orbit, responsive orbit and earth pole-sitter orbit, it also discusses the concept, theory, design methods and application of special space orbits, particularly the design and control method based on kinematics and astrodynamics. In addition the book presents the latest research and its application in space missions. It is intended for researchers, engineers and postgraduates, especially those working in the fields of orbit design and control, as well as space-mission planning and research |
| Bibliography |
Includes bibliographical references |
| Notes |
Print version record |
| Subject |
Orbits.
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Orbital mechanics.
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SCIENCE -- Astronomy.
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Orbital mechanics
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Orbits
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| Form |
Electronic book
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| Author |
Xu, Yanli
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Zhou, Haijun
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| ISBN |
9789811029486 |
|
9811029482 |
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