slicot_ab04md
Discrete-time / continuous-time systems conversion by a bilinear transformation.
Syntax
[A_OUT, B_OUT, C_OUT, D_OUT, INFO] = slicot_ab04md(TYPE, ALPHA, BETA, A_IN, B_IN, C_IN, D_IN)
Input argument
TYPE - a character: 'D' discrete or 'C' continuous time
ALPHA, BETA - Parameters specifying the bilinear transformation. Recommended values for stable systems: ALPHA = 1, BETA = 1. ALPHA ~= 0, BETA ~= 0
A_IN - N-by-N part of this array must contain the state matrix A of the original system.
B_IN - N-by-M part of this array must contain the input matrix B of the original system.
C_IN - P-by-N part of this array must contain the output matrix C of the original system.
D_IN - P-by-M part of this array must contain the input/output matrix D for the original system.
Output argument
A_OUT - N-by-N part of this array contains the state matrix _A of the transformed system.
B_OUT - N-by-M part of this array contains the input matrix _B of the transformed system.
C_OUT - the leading P-by-N part of this array contains the output matrix _C of the transformed system.
D_OUT - P-by-M part of this array contains the input/output matrix _D of the transformed system.
INFO - Error Indicator: = 0: successful exit; less than 0: if INFO = -i, the i-th argument had an illegal value; = 1: if the matrix (ALPHAI + A) is exactly singular; = 2: if the matrix (BETAI - A) is exactly singular.
Description
To perform a transformation on the parameters (A, B, C, D) of a system, which is equivalent to a bilinear transformation of the corresponding transfer function matrix.
Used function(s)
AB04MD
Bibliography
http://slicot.org/objects/software/shared/doc/AB04MD.html
Example
History
1.0.0
initial version
Author
SLICOT Documentation
Last updated