- constrained multi-body system
- variable speed CMG
- Reaction Wheels
- momentum based attitude control
- Analytical mechanics
- Variable Speed Control Moment Gyroscopes
- Control Moment Gyroscopes (CMGs)
- Nonlinear Attitude Control
- RW Performance Envelopes
- Lagrangian Dynamics
- holonomic constraints
- D'Alembert's Principle
Programa especializado: Advanced Spacecraft Dynamics and Control
Launch your Career in Spacecraft Attitude GNC. Master Complex Spacecraft Dynamics Modeling
ofrecido por
Programa especializado: Advanced Spacecraft Dynamics and ControlUniversidad de Colorado en BoulderQué aprenderás
Modeling spacecraft with angular momentum exchange devices
Analytical methods to derive equations of motion
How to apply Holonomic and Pfaffian constraints to a dynamical description.
Developing spacecraft equations of motion with momentum exchange devices
Habilidades que obtendrás
Acerca de este Programa Especializado
This Specialization on advanced spacecraft dynamcis and control is intended for experienced spacecraft dynamics and GNC engineers and researchers. It is assumed the viewer has completed the prior spacecraft dynamics specialization already. Through 3 courses we cover the topics of momentum-based attitude dynamics and control, we derive analytical methods to model complex spacecraft systems, and finally conclude with a captstone project course. After this course you will be prepared to model the dynamics of spacecraft systems with time varying components (reacton wheels, CMS, deployable panels, etc.).
Proyecto de aprendizaje aplicado
The learners will develop complex spacecraft dynamics simulations of a vehicle with several variable speed control moment gyroscopes (CMGs) attached. This challenging software development allows the engineer to create high fidelity attitude simulation and control development. Further, the capstone project explores spacecraft with time varying geometry for both 3D and planar rotation cases. This is applicable to modeling flexing or deploying solar panels.
Certificado para compartir
Obtén un certificado al finalizar
Cursos 100 % en línea
Comienza de inmediato y aprende a tu propio ritmo.
Cronograma flexible
Establece y mantén fechas de entrega flexibles.
Nivel avanzado
experience with rigid body kinematics, rigid body dynamics, Lyapunov based attitude control, programming experience to write spacecraft simulations
Aproximadamente 3 meses para completarse
Ritmo sugerido de 8 horas/semana
Inglés (English)
Subtítulos: Inglés (English)
Certificado para compartir
Obtén un certificado al finalizar
Cursos 100 % en línea
Comienza de inmediato y aprende a tu propio ritmo.
Cronograma flexible
Establece y mantén fechas de entrega flexibles.
Nivel avanzado
experience with rigid body kinematics, rigid body dynamics, Lyapunov based attitude control, programming experience to write spacecraft simulations
Aproximadamente 3 meses para completarse
Ritmo sugerido de 8 horas/semana
Inglés (English)
Subtítulos: Inglés (English)
Cómo funciona el programa especializado
Toma cursos
Un programa especializado de Coursera es un conjunto de cursos que te ayudan a dominar una aptitud. Para comenzar, inscríbete en el programa especializado directamente o échale un vistazo a sus cursos y elige uno con el que te gustaría comenzar. Al suscribirte a un curso que forme parte de un programa especializado, quedarás suscrito de manera automática al programa especializado completo. Puedes completar solo un curso: puedes pausar tu aprendizaje o cancelar tu suscripción en cualquier momento. Visita el panel principal del estudiante para realizar un seguimiento de tus inscripciones a cursos y tu progreso.
Proyecto práctico
Cada programa especializado incluye un proyecto práctico. Necesitarás completar correctamente el proyecto para completar el programa especializado y obtener tu certificado. Si el programa especializado incluye un curso separado para el proyecto práctico, necesitarás completar cada uno de los otros cursos antes de poder comenzarlo.
Obtén un certificado
Cuando completes todos los cursos y el proyecto práctico, obtendrás un Certificado que puedes compartir con posibles empleadores y tu red profesional.
Hay 3 cursos en este Programa Especializado
Attitude Control with Momentum Exchange Devices
This course is part 1 of the specialization Advanced Spacecraft Dynamics and Control. It is a direct continuation of the Coursera specialization Spacecraft Dynamics and Control. This first course focuses on nonlinear attitude feedback control using a range of angular momentum devices. The course provides a comprehensive review of prerequisite material. Next it develops equations of motion of a spacecraft with momentum exchange devices such as reaction wheels (RWs), control momentum gyroscopes (CMGs) and variable speed control moment gyroscopes (VSCMGs).
Analytical Mechanics for Spacecraft Dynamics
This course is part 2 of the specialization Advanced Spacecraft Dynamics and Control. It assumes you have a strong foundation in spacecraft dynamics and control, including particle dynamics, rotating frame, rigid body kinematics and kinetics. The focus of the course is to understand key analytical mechanics methodologies to develop equations of motion in an algebraically efficient manner. The course starts by first developing D’Alembert’s principle and how the associated virtual work and virtual displacement concepts allows us to ignore non-working force terms. Unconstrained systems and holonomic constrains are investigated. Next Kane's equations and the virtual power form of D'Alembert's equations are briefly reviewed for particles.
Advanced Capstone Spacecraft Dynamics and Control Project
This capstone course is the 3rd and final course of the specialization Advanced Spacecraft Dynamics and Control. It assumes you have completed the prior courses on "Attitude Control with Momentum Exchange Devices" and "Analytical Mechanics for Spacecraft Dynamics". This project course investigates the dynamics of a complex spacecraft system where there is a rigid hub onto which a hinged panel is attached. This simulates a spacecraft with a time varying geometry.
ofrecido por
Universidad de Colorado en Boulder
CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U.S. public institutions in the prestigious Association of American Universities (AAU), we have a proud tradition of academic excellence, with five Nobel laureates and more than 50 members of prestigious academic academies.
Preguntas Frecuentes
¿Cuál es la política de reembolsos?
¿Puedo inscribirme en un solo curso?
¿Hay ayuda económica disponible?
¿Puedo tomar este curso de manera gratuita?
¿Este curso es 100 % en línea? ¿Necesito asistir a alguna clase en persona?
¿Recibiré crédito universitario por completar el programa especializado?
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