Autonomous Trajectory Planning and Guidance Control for Launch Vehicles -

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Résumé :
This open access book highlights the autonomous and intelligent flight control of future launch vehicles for improving flight autonomy to plan ascent and descent trajectories onboard, and autonomously handle unexpected events or failures during the flight. Since the beginning of the twenty-first century, space launch activities worldwide have grown vigorously. Meanwhile, commercial launches also account for the booming trend. Unfortunately, the risk of space launches still exists and is gradually increasing in line with the rapidly rising launch activities and commercial rockets. In the history of space launches, propulsion and control systems are the two main contributors to launch failures. With the development of information technologies, the increase of the functional density of hardware products, the application of redundant or fault-tolerant solutions, and the improvement of the testability of avionics, the launch losses caused by control systems exhibita downward trend, and the failures induced by propulsion systems become the focus of attention. Under these failures, the autonomous planning and guidance control may save the missions. This book focuses on the latest progress of relevant projects and academic studies of autonomous guidance, especially on some advanced methods which can be potentially real-time implemented in the future control system of launch vehicles. In Chapter 1, the prospect and technical challenges are summarized by reviewing the development of launch vehicles. Chapters 2 to 4 mainly focus on the flight in the ascent phase, in which the autonomous guidance is mainly reflected in the online planning. Chapters 5 and 6 mainly discuss the powered descent guidance technologies. Finally, since aerodynamic uncertainties exert a significant impact on the performance of the ascent / landing guidance control systems, the estimation of aerodynamic parameters, which are helpful to improve flight autonomy, is discussed in Chapter 7. The book serves as a valuable reference for researchers and engineers working on launch vehicles. It is also a timely source of information for graduate students interested in the subject. ...

Biographie:

Zhengyu Song

Dr. Zhengyu Song is a research fellow of China Academy of Launch Vehicle Technology. He is also an adjunct professor of the College of Control Science and Engineering, Zhejiang University, China. In 2016, he was elected an academician of the International Academy of Astronautics. He is currently the chief designer of China's Long March-8 Launch Vehicle. His research interests include autonomous and intelligent flight system design of launch vehicles.

Dangjun Zhao

Stephan Theil

Dr. Stephan Theil is the head of GNC Systems department at DLR's Instituteof Space Systems. He is a recognized expert in the field of spacecraft guidance, navigation, and control (GNC) and has been conducting research in spacecraft GNC for more than 25 years. He has led and worked on many projects in the areas of technologies for optical navigation of landing probes on moons, Mars, and asteroids; hybrid navigation for space transportation applications; and guidance and control for entry, descent and landing.

He has also authored and contributed to 140 publications in different fields of spacecraft GNC. As a recognized expert, he was appointed as a co-chair and chair of the Technical Committee on GNC of the Council of European Aerospace Societies (CEAS) from 2011 to 2019, a field editor for GNC of the CEAS Space Journal as well as technical committee member for the CEAS Specialist Conference on Guidance, Navigation & Control and the International ESA Conference on Guidance and Navigation Control Systems.

Additionally, Dr. Theil has taught several courses on space flight mechanics and GNC at the University of Bremen since 2001. He has supervised more than 60 Master's and 15 Ph.D. students.