Spacecraft Collision Avoidance Technology
Auteurs : Rongzhi Zhang, Kaizhong Yang
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.
1. Outline of spacecraft collision warning2. Basics of orbital calculation for spacecraft collision avoidance3. Space object detection technology4. Space environment and object orbit5. Spacecraft collision warning orbit calculation method6. Spacecraft collision warning and avoidance strategy
Researchers and professionals working on the mechanics of space flight; aerospace and high-technology companies, including satellite manufacturers; space agencies and governmental organisations related to space; consulting firms; postgraduate students working on space flight
- 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
Date de parution : 03-2020
Ouvrage de 208 p.
19x23.3 cm
Thèmes de Spacecraft Collision Avoidance Technology :
Mots-clés :
Space; satellite; space junk; orbiting debris; space debris; satellite systems; rare event probability; warning systems; avoidance systems; orbit calculation; orbit prediction; trajectory; aeronautics; astronautics; risk analysis; optimal control; risk analysis; flight control; hazards; NASA; space agencies; China National Space Administration; CNSA; China Aerospace Corporation; CASC; international space; national space agencies; space law