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Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
See the recommended documentation of this function
wiener
Wiener estimate
Syntax
[xs,ps,xf,pf]=wiener(y,x0,p0,f,g,h,q,r)
Arguments
- f, g, h
system matrices in the interval
[t0,tf]
- f
=
[f0,f1,...,ff]
, andfk
is a nxn matrix- g
=
[g0,g1,...,gf]
, andgk
is a nxn matrix- h
=
[h0,h1,...,hf]
, andhk
is a mxn matrix
- q, r
covariance matrices of dynamics and observation noise
- q
=
[q0,q1,...,qf]
, andqk
is a nxn matrix- r
=
[r0,r1,...,rf]
, andgk
is a mxm matrix
- x0, p0
initial state estimate and error variance
- y
observations in the interval
[t0,tf]
.y=[y0,y1,...,yf]
, andyk
is a column m-vector- xs
Smoothed state estimate
xs= [xs0,xs1,...,xsf]
, andxsk
is a column n-vector- ps
Error covariance of smoothed estimate
ps=[p0,p1,...,pf]
, andpk
is a nxn matrix- xf
Filtered state estimate
xf= [xf0,xf1,...,xff]
, andxfk
is a column n-vector- pf
Error covariance of filtered estimate
pf=[p0,p1,...,pf]
, andpk
is a nxn matrix
Description
function which gives the Wiener estimate using the forward-backward Kalman filter formulation
Sample
Examples
// initialize state statistics (mean and er. variance) m0=[10 10]'; p0=[100 0;0 100]; // create system f2=[1.1 50.1;0 0.8]; g=[1 0;0 1]; h=[1 0;0 1]; [hi,hj]=size(h); // noise statistics q=[.01 0;0 0.01]; r=20*eye(2,2); // initialize system process rand("seed",66); rand("normal"); p0c=chol(p0); x0=m0+p0c'*rand(ones(m0)); y=h*x0+chol(r)'*rand(ones(1:hi))'; yt=y; // initialize plotted variables x=x0; // loop ft=[f2]; gt=[g]; ht=[h]; qt=[q]; rt=[r]; n=10; for k=1:n // generate the state and observation // at time k (i.e. xk and yk) [x1,y]=system(x0,f2,g,h,q,r); x=[x x1]; yt=[yt y]; x0=x1; ft=[ft f2]; gt=[gt g]; ht=[ht h]; qt=[qt q]; rt=[rt r]; end // get the wiener filter estimate [xs,ps,xf,pf]=wiener(yt,m0,p0,ft,gt,ht,qt,rt); // plot result a=min([x(1,:)-2*sqrt(ps(1,1:2:2*(n+1))),xf(1,:),xs(1,:)]); b=max([x(1,:)+2*sqrt(ps(1,1:2:2*(n+1))),xf(1,:),xs(1,:)]); c=min([x(2,:)-2*sqrt(ps(2,2:2:2*(n+1))),xf(2,:),xs(2,:)]); d=max([x(2,:)+2*sqrt(ps(2,2:2:2*(n+1))),xf(2,:),xs(2,:)]); xmargin=max([abs(a),abs(b)]); ymargin=max([abs(c),abs(d)]); a=-0.1*xmargin+a; b=.1*xmargin+b; c=-0.1*ymargin+c; d=.1*ymargin+d; // plot frame, real state (x), and estimates (xf, and xs) scf(); plot([a a b],[d c c]); plot2d(x(1,:)',x(2,:)',[2],"000") plot2d(xf(1,:)',xf(2,:)',[2],"000") plot2d(xs(1,:)',xs(2,:)',[2],"000") // mark data points (* for real data, o for estimates) plot2d(xs(1,:)',xs(2,:)',[-2],"000") plot2d(xf(1,:)',xf(2,:)',[-3],"000") plot2d(x(1,:)',x(2,:)',[-4],"000")
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