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E-grāmata: Spacecraft Collision Avoidance Technology

(Senior Researcher, State Key Laboratory of Astronautics Dynamics, Xian, China),
  • Formāts: EPUB+DRM
  • Izdošanas datums: 03-Mar-2020
  • Izdevniecība: Academic Press Inc
  • Valoda: eng
  • ISBN-13: 9780128182413
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Spacecraft Collision Avoidance TechnologyPalielināt
  • Formāts: EPUB+DRM
  • Izdošanas datums: 03-Mar-2020
  • Izdevniecība: Academic Press Inc
  • Valoda: eng
  • ISBN-13: 9780128182413
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Spacecraft Collision Avoidance Technology presents the theory and practice of space collision avoidance. The title gives models of time and space environment, their impact on high-precision orbit prediction, considers optimal orbit determination methods and models in different warning stages, and establishes basic models for warning and avoidance. Chapters present an outline of spacecraft collision warning strategy, elaborate on the basics of orbital calculation for collision avoidance, consider space object detection technology, detail space environment and object orbit, give a method for spacecraft collision warning orbit calculation, and finally, demonstrate a strategy for spacecraft collision warning and avoidance.

  • Presents strategies, methods and real-world examples relating to space collision avoidance
  • Considers time and space environment models in orbit prediction
  • Gives optimal orbit determination methods and models for various warning stages
  • Establishes and elaborates basic models for warning and avoidance
  • Takes note of the current space environment for object detection and collision avoidance
1 Outline of spacecraft collision warning
1(10)
1.1 Distribution and characteristics of space objects
1(2)
1.2 Characteristics and hazards of space debris
3(3)
1.3 Collision warning of spacecraft
6(5)
2 Basics of orbital calculation for spacecraft collision avoidance
11(24)
2.1 Basic definitions and transformation in astronomy
11(10)
2.2 Space object orbit: basic definitions and transformation
21(14)
3 Space object detection technology
35(38)
3.1 Overview
35(2)
3.2 Radar measurement technology
37(11)
3.3 Electro-optical detection technology
48(16)
3.4 Public correction models for measurement data
64(6)
3.5 Relationship between detection network and orbit accuracy
70(3)
4 Space environment and object orbit
73(50)
4.1 Atmospheric effect on space object orbit
73(2)
4.2 Atmospheric density model
75(31)
4.3 Systematic error and random error of atmospheric density models
106(3)
4.4 Prediction confidence level of space environment parameters influenced atmospheric density
109(6)
4.5 Calculation strategy of atmospheric perturbation for spacecraft collision avoidance warning calculation
115(8)
5 Spacecraft collision warning orbit calculation method
123(32)
5.1 Precise orbital calculation method
124(7)
5.2 Cataloged orbit calculation method
131(24)
6 Spacecraft collision warning and avoidance strategy
155(32)
6.1 Collision warning calculation
156(16)
6.2 The method of spacecraft avoidance
172(5)
6.3 Collision warning strategy for spacecraft safety operation and case studies
177(10)
References 187(6)
Index 193
Rongzhi Zhang is a senior researcher at the State Key Laboratory of Astronautics Dynamics in Xian, China. He has accumulated significant experience in spacecraft collision avoidance research and engineering, and has been involved with practical application of spacecraft collision avoidance to Chinas space program.
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