Given an LTI system with corresponding transfer matrix K(s), is there an easy way to specify K(w) where w=s+delta?

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Vinh 2024년 1월 24일

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https://kr.mathworks.com/matlabcentral/answers/2073986-given-an-lti-system-with-corresponding-transfer-matrix-k-s-is-there-an-easy-way-to-specify-k-w-wh

답변: Paul 2024년 1월 25일

I wanted to use the method in this paper here:

https://www.researchgate.net/publication/216771764_H-infinity_controllers_with_integral_action_an_experimental_evaluation

and to do so I need to shift the complex "s" argument for the transfer matrix K(s) by some constant real delta, such that for w=s+delta I need to be able to specify K(w).

Is there an easy way to do this? I currently have K(s) as a state space system.

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Vinh 2024년 1월 24일

편집: Vinh 2024년 1월 24일

Oh I think I will try to use "num" and "den" for every element of K(s) calculated with tf(K), and then I will just take these coefficients and multiply them by a "s+delta" rather than an s. I will repost if this works, although I am still hoping for a nicer solution.

Vinh 2024년 1월 24일

편집: Vinh 2024년 1월 24일

Oh I think I have am being stupid. For K=ss(A,B,C,D) and looking at

K(s)=C(s*1-A)^-1*B+D

I think I can just consider

K(w)=C((s+delta)*1-A)^-1*B+D

which is equivalent to

K(w)=C(s*1-A_tilde)^-1*B+D

where

A_tilde=-delta*1+A

so I am hoping I can just perturb this A matrix like this to get a shifted system. Also, sorry for the sloppy notation, I guess I should specify K(w) is actually a transformed K(s) and is not equal to it obviously.

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Answer 1

Vinh 2024년 1월 24일

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https://kr.mathworks.com/matlabcentral/answers/2073986-given-an-lti-system-with-corresponding-transfer-matrix-k-s-is-there-an-easy-way-to-specify-k-w-wh#answer_1396871

I think both comments are valid, but the first one didn't work and the second one seemed to answer my question I think. Please correct me if I am wrong, but just to specify the answer again I just perturbed the A matrix of K by adding -delta*1.

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Answer 2

Paul 2024년 1월 25일

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https://kr.mathworks.com/matlabcentral/answers/2073986-given-an-lti-system-with-corresponding-transfer-matrix-k-s-is-there-an-easy-way-to-specify-k-w-wh#answer_1396921

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Hi Vinh,

I think the substitution backward.

It should go like this:

K(s) = C * inv(s*I - A) * B + D

w = s + delta -> s = w - delta

K(w) = C * inv((w - delta)*I - A) * B + D

K(w) = C * inv(wI - delta*I - A) * B + D

K(w) = C * inv(wI - (delta*I + A)) * B + D

therefore A_tilde = A + delta*I

Check

s_sys   = rss(3,3,3);
delta   = 3.1;
A_tilde = s_sys.A + delta*eye(3);
w_sys   = s_sys;
w_sys.A = A_tilde;
s0 = -5 + 1j*4;
w0 = s0 + delta;
evalfr(s_sys,s0) - evalfr(w_sys,w0)
ans = 
   1.0e-15 *

   0.0555 + 0.1665i   0.0278 + 0.0000i   0.0555 - 0.3331i
   0.0000 + 0.8882i   0.0000 + 0.1110i   0.2220 - 0.8882i
   0.4441 + 0.0000i   0.1110 + 0.0000i  -0.6661 + 0.2220i