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Ajuda do Scilab >> CACSD > lqg2stan

lqg2stan

LQG to standard problem

Calling Sequence

[P,r]=lqg2stan(P22,bigQ,bigR)

Arguments

P22

syslin list (nominal plant) in state-space form

bigQ

[Q,S;S',N] (symmetric) weighting matrix

bigR

[R,T;T',V] (symmetric) covariance matrix

r

1x2 row vector = (number of measurements, number of inputs) (dimension of the 2,2 part of P)

P

syslin list (augmented plant)

Description

lqg2stan returns the augmented plant for linear LQG (H2) controller design.

P22=syslin(dom,A,B2,C2) is the nominal plant; it can be in continuous time (dom='c') or discrete time (dom='d').

. 
x = Ax + w1 + B2u
y = C2x + w2

for continuous time plant.

x[n+1]= Ax[n] + w1 + B2u
    y = C2x + w2

for discrete time plant.

The (instantaneous) cost function is [x' u'] bigQ [x;u].

The covariance of [w1;w2] is E[w1;w2] [w1',w2'] = bigR

If [B1;D21] is a factor of bigQ, [C1,D12] is a factor of bigR and [A,B2,C2,D22] is a realization of P22, then P is a realization of [A,[B1,B2],[C1,-C2],[0,D12;D21,D22]. The (negative) feedback computed by lqg stabilizes P22, i.e. the poles of cl=P22/.K are stable.

Examples

ny=2;nu=3;nx=4;
P22=ssrand(ny,nu,nx);
bigQ=rand(nx+nu,nx+nu);bigQ=bigQ*bigQ';
bigR=rand(nx+ny,nx+ny);bigR=bigR*bigR';
[P,r]=lqg2stan(P22,bigQ,bigR);K=lqg(P,r);  //K=LQG-controller
spec(h_cl(P,r,K))      //Closed loop should be stable
//Same as Cl=P22/.K; spec(Cl('A'))
s=poly(0,'s')
lqg2stan(1/(s+2),eye(2,2),eye(2,2))

See Also

  • lqg — LQG compensator
  • lqr — LQ compensator (full state)
  • lqe — linear quadratic estimator (Kalman Filter)
  • obscont — observer based controller
  • h_inf — Continuous time H-infinity (central) controller
  • augment — augmented plant
  • fstabst — Youla's parametrization of continuous time linear dynmaical systems
  • feedback — feedback operation
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Last updated:
Wed Apr 01 10:24:17 CEST 2015