Space Robotics and Autonomous Systems -

Space Robotics and Autonomous Systems

Technologies, advances and applications

Yang Gao (Herausgeber)

Buch | Hardcover
486 Seiten
2021
Institution of Engineering and Technology (Verlag)
978-1-83953-225-2 (ISBN)
159,95 inkl. MwSt
This edited book covers space robotics and autonomous systems (space RAS) from technologies to advances and applications including sensing and perception, mobility, manipulations, high-level autonomy, human-robot interaction, multi-modal interaction, modelling and simulation, and safety and trust.
Space robotics and autonomous systems (Space RAS) play a critical role in the current and future development of mission-defined machines that can survive in space while performing exploration, assembly, construction, maintenance and servicing tasks. They represent a multi-disciplinary emerging field at the intersection of space engineering, terrestrial robotics, computer science and materials. The field is essential to humankind's ability to explore or operate in space; providing greater access beyond human spaceflight limitations in the harsh environment of space, and offering greater operational handling that extends astronauts' capabilities. Space RAS covers all types of robotics for the exploration of planet surfaces as well as robotics used in orbit around the Earth and the sensors needed by the platform for navigation or control.


Written by a team of International experts on space RAS, this book covers advanced research, technologies and applications including: sensing and perception to provide situational awareness for space robotic agents, explorers and assistants; mobility to reach and operate at sites of scientific interest on extra-terrestrial surfaces or free space environments using locomotion; manipulations to make intentional changes in the environment or objects using locomotion such as placing, assembling, digging, trenching, drilling, sampling, grappling and berthing; high-level autonomy for system and sub-systems to provide robust and safe autonomous navigation, rendezvous and docking capabilities and to enable extended-duration operations without human interventions to improve overall performance of human and robotic missions; human-robot interaction and multi-modal interaction; system engineering to provide a framework for understanding and coordinating the complex interactions of robots and achieving the desired system requirements; verification and validation of complex adaptive systems; modelling and simulation; and safety and trust.

Yang Gao is the Professor of Space Autonomous Systems at Surrey Space Centre of the University of Surrey, UK. Prof. Gao founded and heads the multi-awards winning Space Technology for Autonomous and Robotic systems Laboratory (STAR LAB), which specializes in robotic sensing, perception, visual GNC and biomimetic mechanisms for industrial applications in extreme environments. She has been the Principal Investigator of internationally teamed projects funded by UK Research Councils, InnovateUK, Royal Academy of Engineering, European Commission, European Space Agency (ESA), UK Space Agency, as well as industrial companies. She has also been actively involved in real-world space missions such as ESA's ExoMars, Proba3 and VMMO, UK's MoonLITE/Moonraker, and CNSA Chang'E3. Prof. Gao is an elected Fellow of the Institute of Engineering and Technology (IET) and the Royal Aeronautical Society (RAeS). She was named by the Times Higher Education in 2008 as one of ten UK's young leading academics who are making a very significant contribution to their disciplines, and was also awarded the Mulan Award in 2019 for Contributions to Science, Technology and Engineering. Research work under her leadership and supervision has also received many international recognitions such as the IAF's 3AF Edmond Brun Silver Medal, COSPAR's Outstanding Paper Award, Top places in ESA Grand Challenges, etc. Prof. Gao holds a B. Eng (1st Hons) and Ph.D. on electrical and control engineering from the Nanyang Technological University, Singapore.

Chapter 1: Introduction
Part I: Mobility and mechanisms

Chapter 2: Wheeled planetary rover locomotion design, scaling, and analysis
Chapter 3: Compliant pneumatic muscle structures and systems for extra-vehicular and intra-vehicular activities in space environments
Chapter 4: Biologically-inspired mechanisms for space applications



Part II: Sensing, perception and GNC

Chapter 5: Autonomous visual navigation for spacecraft on-orbit operations
Chapter 6: Inertial parameter identification, reactionless path planning and control for orbital robotic capturing of unknown objects
Chapter 7: Autonomous robotic grasping in orbital environment



Part III: Astronaut-robot interaction

Chapter 8: BCI for mental workload assessment and performance evaluation in space teleoperations
Chapter 9: Physiological adaptations in space and wearable technology for biosignal monitoring
Chapter 10: Future of human-robot interaction in space



Part: IV System engineering

Chapter 11: Verification for space robotics
Chapter 12: Cyber security of new space systems

Erscheinungsdatum
Reihe/Serie Control, Robotics and Sensors
Verlagsort Stevenage
Sprache englisch
Maße 156 x 234 mm
Themenwelt Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Technik Fahrzeugbau / Schiffbau
Technik Luft- / Raumfahrttechnik
ISBN-10 1-83953-225-4 / 1839532254
ISBN-13 978-1-83953-225-2 / 9781839532252
Zustand Neuware
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