Tethered Space Robot Dynamics, Measurement, and Control
Auteurs : Huang Panfeng, Meng Zhongjie, Guo Jian, Zhang Fan
Tethered Space Robot: Dynamics, Measurement, and Control discusses a novel tethered space robot (TSR) system that contains the space platform, flexible tether and gripper. TSR can capture and remove non-cooperative targets such as space debris. It is the first time the concept has been described in a book, which describes the system and mission design of TSR and then introduces the latest research on pose measurement, dynamics and control. The book covers the TSR system, from principle to applications, including a complete implementing scheme. A useful reference for researchers, engineers and students interested in space robots, OOS and debris removal.
Researchers and engineers in the fields of space robots, OOS and debris removal. Graduate or senior undergraduate students studying space engineering
Dr. Meng received his Ph.D. from Northwestern Polytechnical University, China, in 2010. He is currently an associate professor at the School of Astronautics, Northwestern Polytechnical University. His research interests include dynamics and control of tethered space robots and intelligent spacecraft system.
Dr. Guo received his PhD degree from University of Leeds in England and BSc/MSc degrees from Northwestern Polytechnical University in China. Before joined Delft University of Technology (TU Delft), he worked as Research Assistant in Tsinghua University from 2001 to 2004. He is currently a Theme Leader in TU Delft Space Institute (DSI) and an Assistant Professor in the Faculty of Aerospace Engineering, TU Delft. His research interests include small satellite, distributed space systems, and space systems engineering.
Dr. Fan (Aaron) Zhang PhD received the B.Sc. (Hons) and M.Sc. degrees from Shanghai Jiao Tong University (2005 and 2008 respectively), and his Ph.D from the University of Bristol (2012). He is currently a Research Fellow in the Visual Information Laboratory at the University of Bristol, working on video compression and immersive video processing. His research interests include perceptual video compression, video quality assessment and immersive video formats. Aaron has published over 30 academic papers and has contributed to two books previous books on video compression. His work on super-resolution-based video compression, has contributed to inter
- Provides for the first time comprehensive coverage of various aspects of tethered space robots (TSR)
- Presents both fundamental principles and application technologies including pose measurement, dynamics and control
- Describes some new control techniques, including a coordinated control method for tracking optimal trajectory, coordinated coupling control and coordinated approaching control using mobile tether attachment points
Date de parution : 10-2017
Ouvrage de 316 p.
15x22.8 cm
Thèmes de Tethered Space Robot :
Mots-clés :
Tethered Space Robot; Dynamics and Kinetics; Bead Model; Ritz method; Hybrid Unit Method; Newton-Euler Method; Hamiltonian; Vision Perception; Target Contour Tracking; Visual Servoing; Coordinated Control; Tracking Optimal Trajectory; Numerical Simulation; Attitude stability strategy; Tether Distributed Mass; Approach Dynamic Model; Approach Control Strategy; Mobile Tether Attachment Points; Adaptive Target Capture Control