0
votes

I am trying to implement the basic Equations for Kalman filter for the following 1 dimensional AR model:

x(t) = a_1x(t-1) + a_2x(t-2) + w(t)  

y(t) = Cx(t) + v(t);

The KF state space model :

x(t+1) = Ax(t) + w(t)

y(t) = Cx(t) + v(t)

w(t) = N(0,Q)

v(t) = N(0,R)

where

 % A - state transition matrix
% C - observation (output) matrix
% Q - state noise covariance
% R - observation noise covariance
% x0 - initial state mean
% P0 - initial state covariance


%%% Matlab script to simulate data and process usiung Kalman for the state
%%% estimation of AR(2) time series.
% Linear system representation
% x_n+1 = A x_n + Bw_n
% y_n = Cx_n + v_n
% w = N(0,Q); v = N(0,R)
clc
clear all

T = 100; % number of data samples
order = 2;
% True coefficients of AR model
  a1 = 0.195;
  a2 = -0.95;

A = [ a1  a2;
      0 1 ];
C = [ 1 0 ];
B = [1;
      0];

 x =[ rand(order,1) zeros(order,T-1)];



sigma_2_w =1;  % variance of the excitation signal for driving the AR model(process noise)
sigma_2_v = 0.01; % variance of measure noise


Q=eye(order);
P=Q;




%Simulate AR model time series, x;



sqrtW=sqrtm(sigma_2_w);
%simulation of the system
for t = 1:T-1
    x(:,t+1) = A*x(:,t) + B*sqrtW*randn(1,1);
end

%noisy observation

y = C*x + sqrt(sigma_2_v)*randn(1,T);

R=sigma_2_v*diag(diag(x));
R = diag(R);

z = zeros(1,length(y));
z = y;

 x0=mean(y);
for i=1:T-1
[xpred, Ppred] = predict(x0,P, A, Q);
[nu, S] = innovation(xpred, Ppred, z(i), C, R);
[xnew, P] = innovation_update(xpred, Ppred, nu, S, C);
end

%plot
xhat = xnew';


plot(xhat(:,1),'red');
hold on;
plot(x(:,1));



function [xpred, Ppred] = predict(x0,P, A, Q)
xpred = A*x0;
Ppred = A*P*A' + Q;
end

function [nu, S] = innovation(xpred, Ppred, y, C, R)
nu = y - C*xpred; %% innovation
S = R + C*Ppred*C'; %% innovation covariance
end

function [xnew, Pnew] = innovation_update(xpred, Ppred, nu, S, C)
K = Ppred*C'*inv(S); %% Kalman gain
xnew = xpred + K*nu; %% new state
Pnew = Ppred - Ppred*K*C; %% new covariance
end

The code is throwing the error

Error using inv
Matrix must be square.

Error in innovation_update (line 2)
K = Ppred*C'*inv(S); %% Kalman gain

Error in Kalman_run (line 65)
[xnew, P] = innovation_update(xpred, Ppred, nu, S, C);

This is because S matrix is not square. How do I make it square? Is there a problem with the steps before that?

1
As per a number of your other questions, I've rolled back the edit here - the answer below was given on the basis of a question featuring code, and it is possible that an answer would not have been given, had the code not been there.halfer

1 Answers

0
votes

As far as I understand it, the R matrix is supposed to be the covariance matrix for the measurement noise.

The following lines:

R=sigma_2_v*diag(diag(x));
R = diag(R); 

Change R from a 2x2 diagonal matrix to a 2x1 column vector.

Since your observation y is a scalar, the observation noise v must also be a scalar. This means R is a 1x1 covariance matrix, or simply the variance of the random variable v.

You should make R a scalar for your code to work properly.