ml_dt_dss_partstab

Stabilizing feedback for descriptor systems.

Contents

Syntax

[K, info] = ml_dt_dss_partstab(A, B, E)
[K, info] = ml_dt_dss_partstab(A, B, E, opts)

Description

Partial stabilization is used for the discrete-time system of differential-algebraic equations

   Ex(t+1) = Ax(t) + Bu(t)                                         (1)

to get a stabilizing feedback term K, such that all finite eigenvalues of s*E - A + B*K are inside the open unit disk. It is assumed that the pencil s*E - A has no eigenvalues on the unit disk.

Input

Parameter
Meaning
Beta
positive scalar < 1, used as shift of the Bass' algorithm for better conditioning
default: 0.1
DecompEig
positive scalar, overestimation of the absolute value of the largest finite eigenvalue of s*E - A, if set, replaces the computation with DecompTol
default: []
DecompTol
nonnegative scalar, tolerance multiplied with the largest singular value of E to determine the smallest non-quasi-zero singular value of E
default: log(n)*eps
infdecopts
structure, containing the optional parameters for the decomposition of the finite and infinite parts of the system using the disk function and subspace extraction method, see ml_disk and ml_getqz
default: struct()
stabdecopts
structure, containing the optional parameters for the decomposition of the stable and unstable parts of the system using the sign function and subspace extraction method, see ml_signm and ml_getqz
default: struct()
stabmethodopts
structure, containing the optional parameters for the Smith iteration based Lyapunov equation solver used for the stabilization, see ml_dlyap_smith
default: struct()

Output

Entry
Meaning
infoINFDISK
structure, containing information about the disk function method used for the separation of the infinite part, see ml_disk
infoSTABSIGNM
structure, containing information about the sign function method used for the separation of the unstable part, see ml_signm
infoSTABSIGNM2
structure, containing information about the sign function method used for a second separation of the unstable part if necessary, see ml_signm
infoSTABMETH
structure, containing information about the Smith iteration based solver used for the stabilization, see ml_dlyap_smith
infoSTABMETH2
structure, containing information about the Smith iteration based solver used for a second stabilization if necessary, see ml_dlyap_smith
Ninf
Number of identified infinite eigenvalues
Ns
Number of identified stable eigenvalues
Nu
Number of identified anti-stable eigenvalues

Reference

P. Benner, Partial stabilization of descriptor systems using spectral projectors, in: P. Van Dooren, S. P. Bhattacharyya, R. H. Chan, V. Olshevsky, A.Routray (Eds.), Numerical Linear Algebra in Signals, Systems and Control, Vol. 80 of Lect. Notes Electr. Eng., Springer Netherlands, 2011, pp. 55--76. https://doi.org/10.1007/978-94-007-0602-6_3

See Also

ml_dt_ss_partstab | ml_ct_dss_partstab