Newtons method with exact line search for solving the algebraic Riccati equation

Benner, P., Byers, R.

30 October 1998

This paper studies Newton's method for solving the algebraic Riccati equation combined with an exact line search. Based on these considerations we present a Newton{like method for solving algebraic Riccati equations. This method can improve the sometimes erratic convergence behavior of Newton's method.

Newton method

algebraic Riccati equation

exact line search step

size control

MSC 65F30

MSC 15A24

ddc:510

Newtons method with exact line search for solving the algebraic Riccati equation

Benner, P., Byers, R.

30 October 1998

This paper studies Newton's method for solving the algebraic Riccati equation combined with an exact line search. Based on these considerations we present a Newton{like method for solving algebraic Riccati equations. This method can improve the sometimes erratic convergence behavior of Newton's method.

info:eu-repo/classification/ddc/510

ddc:510

A cyclic low rank Smith method for large, sparse Lyapunov equations with applications in model reduction and optimal control

Penzl, T.

30 October 1998

We present a new method for the computation of low rank approximations to the solution of large, sparse, stable Lyapunov equations. It is based on a generalization of the classical Smith method and profits by the usual low rank property of the right hand side matrix. The requirements of the method are moderate with respect to both computational cost and memory. Hence, it provides a possibility to tackle large scale control problems. Besides the efficient solution of the matrix equation itself, a thorough integration of the method into several control algorithms can improve their performance to a high degree. This is demonstrated for algorithms for model reduction and optimal control. Furthermore, we propose a heuristic for determining a set of suboptimal ADI shift parameters. This heuristic, which is based on a pair of Arnoldi processes, does not require any a priori knowledge on the spectrum of the coefficient matrix of the Lyapunov equation. Numerical experiments show the efficiency of the iterative scheme combined with the heuristic for the ADI parameters.

ADI iteration

Smith method

iterative methods

Lyapunov equation

matrix equation

model reduction

balanced truncation

optimal control

Riccati equation

Newton method

MSC 65F30

MSC 65F10

MSC 15A24

MSC 93C05

ddc:510

A cyclic low rank Smith method for large, sparse Lyapunov equations with applications in model reduction and optimal control

Penzl, T.

30 October 1998

We present a new method for the computation of low rank approximations to the solution of large, sparse, stable Lyapunov equations. It is based on a generalization of the classical Smith method and profits by the usual low rank property of the right hand side matrix. The requirements of the method are moderate with respect to both computational cost and memory. Hence, it provides a possibility to tackle large scale control problems. Besides the efficient solution of the matrix equation itself, a thorough integration of the method into several control algorithms can improve their performance to a high degree. This is demonstrated for algorithms for model reduction and optimal control. Furthermore, we propose a heuristic for determining a set of suboptimal ADI shift parameters. This heuristic, which is based on a pair of Arnoldi processes, does not require any a priori knowledge on the spectrum of the coefficient matrix of the Lyapunov equation. Numerical experiments show the efficiency of the iterative scheme combined with the heuristic for the ADI parameters.

info:eu-repo/classification/ddc/510

ddc:510

ADI iteration

Smith method

iterative methods

Lyapunov equation

matrix equation

model reduction

balanced truncation

optimal control

Riccati equation

Newton method

MSC 65F30

MSC 65F10

MSC 15A24

MSC 93C05