<< slicot_ab04md | SLICOT | slicot_ab08nd >> |
[A_OUT, B_OUT, C_OUT, D_OUT, RCOND, INFO] = slicot_ab07nd(A_IN, B_IN, C_IN, D_IN) |
The leading N-by-N part of this array must contain the state matrix A of the original system.
The leading N-by-M part of this array must contain the input matrix B of the original system.
The leading M-by-N part of this array must contain the output matrix C of the original system.
The leading M-by-M part of this array must contain the feedthrough matrix D of the original system.
The leading N-by-N part of this array contains the state matrix Ai of the inverse system.
The leading N-by-M part of this array contains the input matrix Bi of the inverse system.
The leading M-by-N part of this array contains the output matrix Ci of the inverse system.
The leading M-by-M part of this array contains the feedthrough matrix Di of the inverse system.
The estimated reciprocal condition number of the feedthrough matrix D of the original system.
= 0: successful exit;
To compute the inverse (Ai, Bi, Ci, Di) of a given system (A, B, C, D).
A_IN = [1.0 2.0 0.0;
4.0 -1.0 0.0;
0.0 0.0 1.0];
B_IN = [1.0 0.0;
0.0 1.0;
1.0 0.0];
C_IN = [0.0 1.0 -1.0;
0.0 0.0 1.0];
D_IN = [4.0 0.0;
0.0 1.0];
[A_OUT, B_OUT, C_OUT, D_OUT, RCOND, INFO] = slicot_ab07nd(A_IN, B_IN, C_IN, D_IN)
Version | Description |
---|---|
1.0.0 | initial version |
SLICOT Documentation