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  • CDS 140 ab: Introduction to Dynamics

    9.00 Credits
    California Institute of Technology

    Basics topics in dynamics in Euclidean space, including equilibria, stability, Lyapunov functions, periodic solutions, PoincarĂ©-Bendixon theory, PoincarĂ© maps. Attractors and structural stability. Introduction to simple bifurcations and eigenvalue crossing conditions. Discussion of bifurcations in applications, invariant manifolds, the method of averaging and singular perturbation theory. Additional topics may include Hamiltonian and Lagrangian systems. Instructors: Murray, MacMynowski, Staff. Prerequisite:    ACM 95/100 ab or equivalent.
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  • CDS 150: Stochastic System Analysis and Bayesian Updating

    9.00 Credits
    California Institute of Technology

    This course focuses on a probabilistic treatment of uncertainty in modeling a dynamical system’s input-output behavior, including propagating uncertainty in the input through to the output. It covers the foundations of probability as a multi-valued logic for plausible reasoning with incomplete information that extends Boolean logic, giving a rigorous meaning for the probability of a model for a system. Approximate analytical methods and efficient stochastic simulation methods for robust system analysis and Bayesian system identification are covered. Topics include: Bayesian updating of system models based on system time-history data, including Markov Chain Monte Carlo techniques; Bayesian model class selection with a recent information-theoretic interpretation that shows why it automatically gives a quantitative Ockham’s razor; stochastic simulation methods for the output of stochastic dynamical systems subject to stochastic inputs, including Subset Simulation for calculating small “failure” probabilities; and Bayes filters for sequential estimation of system states and model parameters, that generalize the Kalman filter to nonlinear dynamical systems. Instructor: Beck.
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  • CDS 190: Independent Work in Control and Dynamical Systems

    1.00 - 9.00 Credits
    California Institute of Technology

    Research project in control and dynamical systems, supervised by a CDS faculty member.
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  • CDS 201: Linear Algebra and Applied Operator Theory

    9.00 Credits
    California Institute of Technology

    Linear spaces, subspaces, spans of sets, linear independence, bases, dimensions; linear transformations and operators, examples, nullspace/kernel, range-space/image, one-to-one and onto, isomorphism and invertibility, rank-nullity theorem; products of linear transformations, left and right inverses, generalized inverses. Adjoints of linear transformations, singular-value decomposition and Moore-Penrose inverse; matrix representation of linear transformations between finite-dimensional linear spaces, determinants, multilinear forms; metric spaces: examples, limits and convergence of sequences, completeness, continuity, fixed-point (contraction) theorem, open and closed sets, closure; normed and Banach spaces, inner product and Hilbert spaces: examples, Cauchy-Schwarz inequality, orthogonal sets, Gram-Schmidt orthogonalization, projections onto subspaces, best approximations in subspaces by projection; bounded linear transformations, principle of superposition for infinite series, well-posed linear problems, norms of operators and matrices, convergence of sequences and series of operators; eigenvalues and eigenvectors of linear operators, including their properties for self-adjoint operators, spectral theorem for self-adjoint and normal operators; canonical representations of linear operators (finite-dimensional case), including diagonal and Jordan form, direct sums of (generalized) eigenspaces. Schur form; functions of linear operators, including exponential, using diagonal and Jordan forms, Cayley-Hamilton theorem. Taught concurrently with ACM 104. Instructor: Beck.
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  • CDS 202: Geometry of Nonlinear Systems

    9.00 Credits
    California Institute of Technology

    Basic differential geometry, oriented toward applications in control and dynamical systems. Topics include smooth manifolds and mappings, tangent and normal bundles. Vector fields and flows. Distributions and Frobenius’s theorem. Matrix Lie groups and Lie algebras. Exterior differential forms, Stokes’ theorem. Instructor: Murray.
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  • CDS 205: Geometric Mechanics

    9.00 Credits
    California Institute of Technology

    The geometry and dynamics of Lagrangian and Hamiltonian systems, including symplectic and Poisson manifolds, variational principles, Lie groups, momentum maps, rigid-body dynamics, Euler-PoincarĂ© equations, stability, and an introduction to reduction theory. More advanced topics (taught in a course the following year) will include reduction theory, fluid dynamics, the energy momentum method, geometric phases, bifurcation theory for mechanical systems, and nonholonomic systems. Not offered 2012–13. Prerequisite:    CDS 202, CDS 140.
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  • CDS 212: Introduction to Modern Control

    9.00 Credits
    California Institute of Technology

    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. Prerequisite:    ACM 95/100 abc or equivalent; CDS 110 ab or equivalent.
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  • CDS 213: Robust Control

    9.00 Credits
    California Institute of Technology

    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. Instructor: Doyle. Prerequisite:    CDS 212, CDS 201.
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  • CDS 251 ab: Closed Loop Flow Control

    9.00 Credits
    California Institute of Technology

    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. Instructors: Colonius, McKeon.
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  • CDS 270: Advanced Topics in Systems and Control

    1.00 - 9.00 Credits
    California Institute of Technology

    Topics dependent on class interests and instructor. May be repeated for credit.
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