Lec # | Topics | Notes |
---|---|---|
1 | Nonlinear optimization: unconstrained nonlinear optimization, line search methods | (PDF - 1.9 MB) |
2 | Nonlinear optimization: constrained nonlinear optimization, Lagrange multipliers Penalty/barrier functions are also often used, but will not be discussed here. | |
3 | Dynamic programming: principle of optimality, dynamic programming, discrete LQR | (PDF - 1.0 MB) |
4 | HJB equation: differential pressure in continuous time, HJB equation, continuous LQR | (PDF) |
5 | Calculus of variations Most books cover this material well, but Kirk (chapter 4) does a particularly nice job. See here for an online reference. | (PDF) |
6 | Calculus of variations applied to optimal control | (PDF) |
7 | Numerical solution in MATLAB | (PDF) |
8 | Properties of optimal control solution Bryson and Ho, Section 3.5 and Kirk, Section 4.4 | (PDF) |
9 | Constrained optimal control Bryson and Ho, section 3.x and Kirk, section 5.3 | (PDF) |
10 | Singular arcs Bryson, chapter 8 and Kirk, section 5.6 | (PDF) |
11 | Estimators/Observers Bryson, chapter 12 and Gelb, Optimal Estimation | (PDF) |
12 | Stochastic optimal control Kwaknernaak and Sivan, chapters 3.6, 5; Bryson, chapter 14; and Stengel, chapter 5 | (PDF) |
13 | LQG robustness Stengel, chapter 6 Question: how well do the large gain and phase margins discussed for LQR (6-29) map over to LQG? | (PDF) |
14 | 16.31 Feedback Control Systems: multiple-input multiple-output (MIMO) systems, singular value decomposition | (PDF) |
15 | Signals and system norms: H∞ synthesis, different type of optimal controller | (PDF) |
16 | Model predictive control | (PDF) |