How to convert a transfer function into state space representation?
Show older comments
I was trying to convert a transfer function into state space representation, but the matrices in the output are not quiet correct. The numbers are flipped like how in B 0 should be up and 1 should be down, or in C where 2 should be right and 3 should be left. How can I fix this issue?
Answers (2)
The state space realization of a transfer function is not unique. In fact, there are infinitely many state space realizations to choose from.
num = [0 3 2];
den = [1 4 4];
The Control System Toolbox uses one methodology
G = ss(tf(num, den))
and the Signal Processing Toolbox uses another
[A,B,C,D] = tf2ss(num,den)
Each realization has the same transfer function
tf(G)
[b,a] = ss2tf(A,B,C,D)
Any other realization can be obtained via similarity transformation. The CST provides a function ss2ss to do that
ss2ss(ss(A,B,C,D),[0 1;1 0])
tf(ans)
1 Comment
It appears that the Control System Toolbox finds a realization with a balance(d) A-matrix, at least in this case. I speculate that such a realization has better numerical properties for operations that are typically performed on such models.
Define a simple transfer function
num = [1,2,3];
den = [1,11,12,13];
The Signal Processing Toolbox returns a realization in a canonical form (offhand, I forget what this form is called). It's easy to convert a transfer function into a canonical form and canonical forms are useful from a theoretical perspective, but, IIRC, they are not preferred numerically.
[a,b,c,d] = tf2ss(num,den);a,b,c
[T,a] = balance(a);
a
Apply the transformation to the b- and c-matrix
b = T\b
c = c*T
Show that the transfer function is unaffected (as must be the case with a similarity transformation)
[bb,aa] = ss2tf(a,b,c,0)
The CST returns the same result.
sys = ss(tf(num,den))
num = [0 3 2];
den = [1 4 4];
G = tf(num, den);
S = ss(G)
S.A
S.B
S.C
S.D
[A, B, C, D] = tf2ss(num, den)
At the moment I do not kow why the values do not match.
1 Comment
Jan
on 19 Feb 2026 at 7:57
I guess ss(tf()) prescales the system and tf2ss(tf()) does not
Categories
Find more on Digital Filter Analysis in Help Center and File Exchange
on 1 May 2023
on 23 Feb 2026 at 23:12
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
