Advanced Capstone Spacecraft Dynamics and Control Project
This course is part of Advanced Spacecraft Dynamics and Control.
This course cannot be purchased separately - to access the complete learning experience, graded assignments, and earn certificates, you'll need to enroll in the full Advanced Spacecraft Dynamics and Control Specialization program. You can audit this specific course for free to explore the content, which includes access to course materials and lectures. This allows you to learn at your own pace without any financial commitment.
Instructors:
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What you'll learn
Create and validate spacecraft simulation with hinged panel
Investigate spacecraft dynamics with time varying geometry
Apply and analyze different control torque solutions
Optimize spacecraft maneuvers considering panel oscillations
Develop differential equations for complex spacecraft systems
Skills you'll gain
This course includes:
0.1 Hours PreRecorded video
6 quizzes
Access on Mobile, Tablet, Desktop
FullTime access
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There are 3 modules in this course
This capstone course focuses on advanced spacecraft dynamics and control, specifically investigating a complex spacecraft system with a rigid hub and hinged panel. Students explore three-dimensional kinematics, derive analytical relationships for body and panel states, and study center of mass properties. The course covers the application of Lagrange's equations of motion and investigates attitude control torques, including classical minimum time bang-bang control and filtered control solutions for managing panel oscillations.
Introduction to the Capstone Project
Module 1 · 4 Minutes to complete
3D Spacecraft Hub-Panel System
Module 2 · 5 Hours to complete
Planar Rotation Control using Bang-Bang and Filtered Control Solutions
Module 3 · 11 Hours to complete
Fee Structure
Individual course purchase is not available - to enroll in this course with a certificate, you need to purchase the complete Professional Certificate Course. For enrollment and detailed fee structure, visit the following: Advanced Spacecraft Dynamics and Control
Instructor
Glenn L. Murphy Chair in Engineering
Dr. Hanspeter Schaub is the Glenn L. Murphy Chair in Engineering at the University of Colorado Boulder, bringing over 25 years of research experience to his role, including four years at Sandia National Laboratories. His research focuses on nonlinear dynamics and control, astrodynamics, and relative motion dynamics, resulting in approximately 195 journal publications and 300 conference papers. He has authored a fourth edition textbook on analytical mechanics of space systems and has pioneered the emerging field of charged astrodynamics. Dr. Schaub has played significant roles in various missions, including being the ADCS lead for the CICERO mission and supporting Mars and asteroid missions.In addition to his research contributions, Dr. Schaub is recognized for his excellence in teaching, having received multiple awards such as the H. Joseph Smead Faculty Fellowship and the Provost's Faculty Achievement Award. He is a fellow of both the American Institute of Aeronautics and Astronautics (AIAA) and the American Astronautical Society (AAS), and he has been honored with several prestigious awards for his contributions to aerospace education and research. His courses at the university include topics such as spacecraft dynamics, control systems, and kinematics, reflecting his expertise in preparing students for careers in aerospace engineering.
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