Certificate in Space Robotics Design: Design Concepts
-- ViewingNowThe Certificate in Space Robotics Design: Design Concepts is a comprehensive course that empowers learners with essential skills in space robotics design. This program highlights the importance of robotics in space exploration and addresses the growing industry demand for professionals with expertise in this field.
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⢠Space Robotics Design Fundamentals: Introduction to the principles of space robotics design, including the unique challenges posed by the space environment and the importance of robotics in space exploration. ⢠Kinematics and Dynamics of Space Robots: Exploration of the motion and forces that affect space robots, including orbital mechanics and control theory. ⢠Sensing and Perception in Space: Examination of the various sensors and imaging systems used in space robotics, including cameras, lidar, and radar. ⢠Space Robotics Actuation Systems: In-depth analysis of the mechanisms used to move and control space robots, including electric motors, hydraulic systems, and shape-memory alloys. ⢠Space Robotics Design for Extreme Environments: Study of the methods used to design space robots that can operate in extreme temperatures, radiation, and vacuum conditions. ⢠Space Robotics Autonomy and Decision Making: Overview of the algorithms and techniques used to enable space robots to make decisions and operate autonomously, including artificial intelligence and machine learning. ⢠Space Robotics Navigation and Mapping: Exploration of the methods used to navigate and map space environments, including simultaneous localization and mapping (SLAM) and visual odometry. ⢠Space Robotics Design for Human-Robot Interaction: Examination of the techniques used to design space robots that can interact with humans, including teleoperation and haptic feedback. ⢠Space Robotics Testing and Validation: Discussion of the processes and procedures used to test and validate space robotics systems, including ground testing, simulations, and flight testing. ⢠Space Robotics Mission Analysis and Design:
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