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See the recommended documentation of this function
augment
augmented plant
Syntax
[P, r] = augment(G) [P, r] = augment(G, flag1) [P, r] = augment(G, flag1, flag2)
Arguments
- G
linear system (
syslin
list), the nominal plant- flag1
one of the following (upper case) character string:
'S'
,'R'
,'T'
'SR'
,'ST'
,'RT'
'SRT'
- flag2
one of the following character string:
'o'
(stands for 'output', this is the default value) or'i'
(stands for 'input').- P
linear system (
syslin
list), the ``augmented'' plant- r
1x2 row vector, dimension of
P22 = G
Description
If flag1='SRT'
(default value), returns the "full" augmented plant
[ I | -G] ⇒ 'S' [ 0 | I] ⇒ 'R' P = [ 0 | G] ⇒ 'T' [-------] [ I | -G]
'S'
, 'R'
, 'T'
refer to the first three (block) rows
of P
respectively.
If one of these letters is absent in flag1
, the corresponding
row in P
is missing.
If G
is given in state-space form, the returned P
is minimal.
P
is calculated by: [I,0,0;0,I,0;-I,0,I;I,0,0]*[I,-G;0,I;I,0]
.
The augmented plant associated with input sensitivity functions, namely
[ I | -I] ⇒ 'S' (input sensitivity) [ G | -G] ⇒ 'R' (K*input sensitivity) P = [ 0 | I] ⇒ 'T' (K*G*input sensitivity) [-------] [ G | -G]
is obtained by the command [P,r]=augment(G,flag,'i')
. For
state-space G
, this P
is calculated by: [I,-I;0,0;0,I;0,0]+[0;I;0;I]*G*[I,-I]
and is thus generically minimal.
Note that weighting functions can be introduced by left-multiplying
P
by a diagonal system of appropriate dimension, e.g.,
P = blockdiag(W1,W2,W3,eye(G))*P
.
Sensitivity functions can be calculated by lft
. One has:
For output sensitivity functions [P,r]=augment(P,'SRT'): lft(P,r,K)=[inv(eye()+G*K);K*inv(eye()+G*K);G*K*inv(eye()+G*K)];
For input sensitivity functions [P,r]=augment(P,'SRT','i'): lft(P,r,K)=[inv(eye()+K*G);G*inv(eye()+K*G);K*G*inv(eye()+G*K)];
Examples
G = ssrand(2,3,2); // Plant K = ssrand(3,2,2); // Compensator [P,r] = augment(G,'T'); T = lft(P,r,K); // Complementary sensitivity function Ktf = ss2tf(K); Gtf = ss2tf(G); Ttf = ss2tf(T); T11 = Ttf(1,1); Oloop = Gtf * Ktf; Tn = Oloop * inv(eye(Oloop)+Oloop); clean(T11 - Tn(1,1)); // [Pi,r] = augment(G,'T','i'); T1 = lft(Pi,r,K); T1tf = ss2tf(T1); // Input Complementary sensitivity function Oloop = Ktf * Gtf; T1n = Oloop * inv(eye(Oloop)+Oloop); clean(T1tf(1,1) - T1n(1,1))
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