How can I fix this error?

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Siddhanth Sunil Shah
Siddhanth Sunil Shah on 7 Jan 2022
Edited: Siddhanth Sunil Shah on 10 Jan 2022
A = [-3 5 -7 0; 0.5 -1.5 0.5 -7.5;-5 0 -3 0; -0.5 -5 0 .7];
B = [1 0 0; 0 -1 0; -2 0 0; 0 1 2];
C = [1 0 0 0; 0 -1 0 0];
D = [-1 0 0; 2 0 0];
SS = ss(A, B, C, D)
G = tf(SS)
S = smithForm(G)
I get the following error. I want to convert the four matrices A,B,C,D into the transfer function G and bring the system in the Smith Form. How can I convert the transfer function matrix into single, double or sym matrix so that I can appy SmithForm()?
Error using smithForm (line 80)
Invalid data type. First argument must be double, single, or sym matrix.
Error in Q5 (line 55)
S = smithForm(G)
  2 Comments
Paul
Paul on 7 Jan 2022
Do you mean you want the Smith-McMillan form of G(s)?
Paul
Paul on 10 Jan 2022
Why did you delete the code from the question?

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Accepted Answer

Star Strider
Star Strider on 7 Jan 2022
Ran in:
The problem is that ‘G’ is a system object, not a matrix. To use smithForm on the ‘A’ matrix —
Ad = [-3 5 -7 0; 0.5 -1.5 0.5 -7.5;-5 0 -3 0; -0.5 -5 0 .7];
As = sym(Ad*10) % Multiply By '10' To Produce Integers & Create As Symbolic
As = 
S = smithForm(As)
S = 
Multiplying by 10 is necesary here, because as the documentation states ‘A’ must be a ‘square invertible symbolic matrix’ and ‘The elements of A must be integers or polynomials’.
.
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Siddhanth Sunil Shah
Siddhanth Sunil Shah on 7 Jan 2022
You can find the detailed info about down squaring of systems here:
https://scholar.lib.vt.edu/MTNS/Papers/034.pdf
I was wondering if there is already a built-in function in MATLAB for this. Can't seem to figure that out
Star Strider
Star Strider on 7 Jan 2022
Edited: Star Strider on 7 Jan 2022
Interesting. I could not find that term on an Interweb search earlier today.
I will read the paper and see what I can find in that regard.
EDIT — (7 Jan 2022 at 17:34)
The paper requires the context of already being familiar with many of the references, and I am not. (Some of the variables such as arise de novo with no explanation or definition, so it is likely that understanding this paper requires being familiar with the references.)
There are no Control System Toolbox functions that I am aware of that would specifically design those compensators, so it would be necessary to design the compensators yourself. The Control System Toolbox functions can likely do that, and it would then be possible to use appropriate existing functions to connect them to the system.
.

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