Advanced Control System Design for Aerospace Vehicles Video Lectures

Advanced Control System Design for Aerospace Vehicles
'Advanced Control System Design for Aerospace Vehicles' Video Lectures by Dr. Radhakant Padhi from IISc Bangalore
"Advanced Control System Design for Aerospace Vehicles" - Video Lectures
1. Introduction and Motivation for Advanced Control Design
2. Classical Control Overview - I
3. Classical Control Overview - II
4. Classical Control Overview - III
5. Classical Control Overview - IV
6. Basic Principles of Atmospheric Flight Mechanics
7. Overview of Flight Dynamics - I
8. Overview of Flight Dynamics - II
9. Representation of Dynamical Systems - I
10. Representation of Dynamical Systems - II
11. Representation of Dynamical Systems - III
12. Review of Matrix Theory - I
13. Review of Matrix Theory - II
14. Review of Matrix Theory - III
15. Review of Numerical Methods
16. Linearization of Nonlinear Systems
17. First and Second Order Linear Differential Equations
18. Time Response of Linear Dynamical Systems
19. Stability of Linear Time Invariant Systems
20. Controllability and Observability of linear Time Invariant Systems
21. Pole Placement Control Design
22. Pole Placement Observer Design
23. Static Optimization: An Overview
24. Calculus of Variations: An Overview
25. Optimal Control Formulation using Calculus of Variations
26. Classical Numerical Methods for Optimal Control
27. Linear Quadratic Regulator (LQR) Design - 1
28. Linear Quadratic Regulator (LQR) Design - 2
29. Linear Control Design Techniques in Aircraft Control - I
30. Linear Control Design Techniques in Aircraft Control - II
31. Lyapunov Theory - I
32. Lyapunov Theory - II
33. Constructions of Lyapunov Functions
34. Dynamic Inversion I
35. Dynamic Inversion II
36. Neuro-Adaptive Design I
37. Neuro-Adaptive Design II
38. Neuro-Adaptive Design for Flight Control
39. Integrator Back-Stepping; Linear Quadratic (lQ) Observer
40. An Overview of Kalman Filter Theory
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