Space Robotics [electronic resource] /
by Yaobing Wang.
- 1st ed. 2021.
- XVII, 363 p. 173 illus., 15 illus. in color. online resource.
- Space Science and Technologies, 2730-6429 .
- Space Science and Technologies, .
Introduction -- Kinematics and Dynamics of Space Robots -- Motion Planning of Space Robot -- Motion Control of Space Robots -- Force Control of Space Robot -- Space Robot System -- Space Robot Mechanical System -- Space Robot Control System -- Space Robot Perception System -- Space Robot Teleoperation System -- Space Robot System Verification -- Design Example of Large Space Manipulator -- Design Example of Planetary Exploration Mobile Robot -- Design Example of Planetary Surface Sampling Manipulator -- Current State of Space Robots -- Future Prospects of Space Robots.
This book provides readers with basic concepts and design theories for space robots and presents essential methodologies for implementing space robot engineering by introducing several concrete projects as illustrative examples. Readers will gain a comprehensive understanding of professional theories in the field of space robots, and will find an initial introduction to the engineering processes involved in developing space robots. Rapid advances in technologies such as the Internet of Things, Cloud Computing, and Artificial Intelligence have also produced profound changes in space robots. With the continuous expansion of human exploration of the universe, it is imperative for space robots to be capable of sharing knowledge, working collaboratively, and becoming more and more intelligent so as to optimize the utilization of space resources. For on-orbit robots that perform service tasks such as spacecraft assembly and maintenance, as well as exploration robots that carry out research tasks on planetary surfaces, the rational integration into a network system can greatly improve their capabilities in connection with executing outer space tasks, such as information gathering and utilization, independent decision-making and planning, risk avoidance, and reliability, while also significantly reducing resource consumption for the system as a whole.
9789811549021
10.1007/978-981-15-4902-1 doi
Aerospace engineering. Astronautics. Control engineering. Robotics. Automation. Mechanics, Applied. Aerospace Technology and Astronautics. Control, Robotics, Automation. Engineering Mechanics.