Please note that the recommended version of Scilab is 2024.1.0. This page might be outdated.

See the recommended documentation of this function

# mucomp

mu (structured singular value) calculation

### Syntax

[BOUND, D, G] = mucomp(Z, K, T)

### Arguments

- Z
the complex n-by-n matrix for which the structured singular value is to be computed

- K
the vector of length m containing the block dimensions of the structured uncertainty . The uncertainty is supposed to be a block diagonal matrix.

- T
the vector of length m indicating the type of each uncertainty block. T(I) = 1 if the corresponding block is real T(I) = 2 if the corresponding block is complex.

- BOUND
the upper bound on the structured singular value.

- D, G
vectors of length n containing the diagonal entries of the diagonal matrices D and G, respectively, such that the matrix

`Z'*diag(D)^2*Z + sqrt(-1)*(diag(G)*Z-Z'*diag(G)) - bound^2*diag(D)^2`

is negative semidefinite.

### Description

This function computes an upper bound on the structured singular value for a given square complex matrix and given block structure of the uncertainty.

The structured singular value is defined as the inverse of the norm of the smallest uncertainty that makes . Here is supposed to be a block diagonal matrix.

### Examples

K=[1,1,2,1,1]; T=[1,1,2,2,2]; Z=[-1+%i*6, 2-%i*3, 3+%i*8, 3+%i*8,-5-%i*9,-6+%i*2; 4+%i*2,-2+%i*5,-6-%i*7,-4+%i*11,8-%i*7, 12-%i; 5-%i*4,-4-%i*8, 1-%i*3,-6+%i*14,2-%i*5, 4+%i*16; -1+%i*6, 2-%i*3, 3+%i*8, 3+%i*8,-5-%i*9,-6+%i*2; 4+%i*2,-2+%i*5,-6-%i*7,-4+%i*11,8-%i*7, 12-%i; 5-%i*4,-4-%i*8, 1-%i*3,-6+%i*14,2-%i*5, 4+%i*16]; [BOUND, D, G] = mucomp(Z, K, T) spec(Z'*(diag(D)^2)*Z + %i*(diag(G)*Z-Z'*diag(G)) - BOUND^2*diag(D)^2)

### Used functions

This function is based on the Slicot routine AB13MD.

### References

Fan, M.K.H., Tits, A.L., and Doyle, J.C. Robustness in the presence of mixed parametric uncertainty and unmodeled dynamics. IEEE Trans. Automatic Control, vol. AC-36, 1991, pp. 25-38. Slicot routine AB13MD.

Report an issue | ||

<< linmeq | Matrix Computation | ric_desc >> |