Type of Document Dissertation Author Stoyanov, Miroslav URN etd-05212009-155950 Title Reduced Order Methods for Large Scale Riccati Equations Degree PhD Department Mathematics Advisory Committee
Advisor Name Title Borggaard, Jeffrey T. Committee Chair Burns, John A. Committee Member Gugercin, Serkan Committee Member Zietsman, Lizette Committee Member Keywords
- Large Scale
- High Rank
- Navier-Stokes
- Riccati Equations
Date of Defense 2009-05-05 Availability unrestricted Abstract Solving the linear quadratic regulator (LQR) problem for partial differential equa-tions (PDEs) leads to many computational challenges. The primary challenge comes
from the fact that discretization methods for PDEs typically lead to very large sys-
tems of differential or differential algebraic equations. These systems are used to form
algebraic Riccati equations involving high rank matrices. Although we restrict our
attention to control problems with small numbers of control inputs, we allow for po-
tentially high order control outputs. Problems with this structure appear in a number
of practical applications yet no suitable algorithm exists. We propose and analyze so-
lution strategies based on applying model order reduction methods to Chandrasekhar
equations, Lyapunov/Sylvester equations, or combinations of these equations. Our nu-
merical examples illustrate improvements in computational time up to several orders of
magnitude over standard tools (when these tools can be used). We also present exam-
ples that cannot be solved using existing methods. These cases are motivated by flow
control problems that are solved by computing feedback controllers for the linearized
system.
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