CDS 90 abc
Senior Thesis in Control and Dynamical Systems
9 units (0-0-9)
|
first, second, third terms
Prerequisites: CDS 110, CDS 112 or CDS 140 (may be taken concurrently).
Research in control and dynamical systems, supervised by a Caltech faculty member. The topic selection is determined by the adviser and the student and is subject to approval by the CDS faculty. First and second terms: midterm progress report and oral presentation during finals week. Third term: completion of thesis and final presentation. Not offered on a pass/fail basis.
Instructor:
Murray
CDS 101
Design and Analysis of Feedback Systems
6 units (2-2-2)
|
first term
Prerequisites: Ma 1 and Ma 2 or equivalents.
An introduction to feedback and control in physical, biological, engineering, and information sciences. Basic principles of feedback and its use as a tool for altering the dynamics of systems and managing uncertainty. Key themes throughout the course will include input/output response, modeling and model reduction, linear vs. nonlinear models, and local vs. global behavior. This course is taught concurrently with CDS 110, but is intended for students who are interested primarily in the concepts and tools of control theory and not the analytical techniques for design and synthesis of control systems.
Instructor:
Burdick
CDS 110
Introduction to Feedback Control Systems
12 units (3-3-6)
|
first term
Prerequisites: Ma 1abc and Ma 2/102 or equivalents.
An introduction to analysis and design of feedback control systems, including classical control theory in the time and frequency domain. Input/output modeling of dynamical systems using differential equations and transfer functions. Stability and performance of interconnected systems, including use of block diagrams, Bode plots, the Nyquist criterion, and Lyapunov functions. Design of feedback controllers in state space and frequency domain based on stability, performance and robustness specifications.
Instructor:
Burdick
CDS 112
Control System Design
9 units (3-2-4)
|
second term
Prerequisites: CDS 110.
Optimization-based design of control systems, including optimal control and receding horizon control. Robustness and uncertainty management in feedback systems through stochastic and deterministic methods. Introductory random processes, Kalman filtering, and norms of signals and systems.
Instructor:
Doyle
CDS 140
Introduction to Dynamics
9 units (3-0-6)
|
third term
Prerequisites: Ma 2/102 or equivalent, ACM 104.
Basics topics in dynamics for continuous state systems in continuous and discrete time, using linear and nonlinear differential equations and maps. Topics include equilibria/invariant sets, stability, Lyapunov functions/invariants, attractors and periodic solutions. Introduction to structural stability, bifurcations and eigenvalue crossing conditions.
Instructor:
Doyle
CDS 190
Independent Work in Control and Dynamical Systems
Units to be arranged
|
first, second, third terms
Prerequisites: CDS 110 or CDS 140.
Research project in control and dynamical systems, supervised by a CDS faculty member.
CDS 212
Introduction to Modern Control
9 units (3-2-4)
|
second term
Prerequisites: Ma 2/102, ACM/CMS 104, CDS 110.
Introduction to modern control systems with emphasis on the role of control in overall system analysis and design. Examples drawn from throughout engineering and science. Open versus closed loop control. State-space methods, time and frequency domain, stability and stabilization, realization theory. Time-varying and nonlinear models. Uncertainty and robustness.
Instructor:
Doyle
CDS 213
Robust Control
9 units (3-0-6)
|
third term
Prerequisites: CDS 212.
Linear systems, realization theory, time and frequency response, norms and performance, stochastic noise models, robust stability and performance, linear fractional transformations, structured uncertainty, optimal control, model reduction, m analysis and synthesis, real parametric uncertainty, Kharitonov's theorem, uncertainty modeling. Not offered 2016-17.
CDS 240
Nonlinear Dynamical Systems
9 units (3-0-6)
|
third term
Prerequisites: CDS 140.
Analysis of nonlinear dynamical systems modeled using differential equations, including invariant and center manifolds, bifurcations, limit cycles, regular and singular perturbations, the method of averaging, input/output stability. Additional advanced topics may be included based on student and instructor interests. Not offered 2016-17.
Ae/CDS/ME 251 ab
Closed Loop Flow Control
9 units
|
(3-0-6 a, 1-6-1- b)
Prerequisites: ACM 100abc, Ae/APh/CE/ME 101abc or equivalent.
This course seeks to introduce students to recent developments in theoretical and practical aspects of applying control to flow phenomena and fluid systems. Lecture topics in the second term drawn from: the objectives of flow control; a review of relevant concepts from classical and modern control theory; high-fidelity and reduced-order modeling; principles and design of actuators and sensors. Third term: laboratory work in open- and closed-loop control of boundary layers, turbulence, aerodynamic forces, bluff body drag, combustion oscillations and flow-acoustic oscillations. Not offered 2016-17.
CDS 270
Advanced Topics in Systems and Control
Hours and units by arrangement
Topics dependent on class interests and instructor. May be repeated for credit.
CDS 300 abc
Research in Control and Dynamical Systems
Hours and units by arrangement
Research in the field of control and dynamical systems. By arrangement with members of the staff, properly qualified graduate students are directed in research.
Instructor:
Staff
Published Date:
July 28, 2022