Spacecraft Relative Motion Kinematics and Kinetics
Master spacecraft relative motion for formation flying, rendezvous, and docking. Learn coordinate systems, differential equations, and orbit perturbations.
Master spacecraft relative motion for formation flying, rendezvous, and docking. Learn coordinate systems, differential equations, and orbit perturbations.
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 Spacecraft Formation Relative Orbits 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:
English
Powered by
What you'll learn
Describe relative motion using multiple coordinate systems
Understand standard relative orbit prototypes
Assess perturbation impacts on relative motion
Setup bounded relative orbits for various chief eccentricities
Develop differential equations for spacecraft motion
Skills you'll gain
This course includes:
13.8 Hours PreRecorded video
43 quizzes
Access on Mobile, Tablet, Desktop
FullTime access
Shareable certificate
Get a Completion Certificate
Share your certificate with prospective employers and your professional network on LinkedIn.
Created by
Provided by
Top companies offer this course to their employees
Top companies provide this course to enhance their employees' skills, ensuring they excel in handling complex projects and drive organizational success.
There are 4 modules in this course
This advanced course covers the fundamentals of describing spacecraft relative motion for applications including rendezvous, docking, circumnavigation, and on-orbit assembly. Students learn various relative coordinate systems, develop differential equations of motion, and study the impact of J2 perturbations. The course explores both near-circular and highly elliptical chief motions, bounded relative orbits, and practical implementation considerations for spacecraft formation flying.
Revisiting Basics of Keplerian Motion
Module 1 · 7 Hours to complete
Variation of Parameters
Module 2 · 5 Hours to complete
Spacecraft Formation Flying
Module 3 · 14 Hours to complete
Bounded Relative Motion
Module 4 · 6 Hours to complete
Fee Structure
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.
Testimonials
Testimonials and success stories are a testament to the quality of this program and its impact on your career and learning journey. Be the first to help others make an informed decision by sharing your review of the course.
Frequently asked questions
Below are some of the most commonly asked questions about this course. We aim to provide clear and concise answers to help you better understand the course content, structure, and any other relevant information. If you have any additional questions or if your question is not listed here, please don't hesitate to reach out to our support team for further assistance.