% 1D constant velocity Kalman filter example dt = 0.1; A = [1 dt; 0 1]; H = [1 0]; Q = [1e-4 0; 0 1e-4]; % process noise covariance R = 0.01; % measurement noise variance x = [0; 1]; % true initial state xhat = [0; 0]; % initial estimate P = eye(2);
for k = 1:T w = mvnrnd(zeros(4,1), Q)'; v = mvnrnd(zeros(2,1), R)'; x = A*x + w; z = H*x + v; % Predict xhat_p = A*xhat; P_p = A*P*A' + Q; % Update K = P_p*H'/(H*P_p*H' + R); xhat = xhat_p + K*(z - H*xhat_p); P = (eye(4) - K*H)*P_p; true_traj(:,k) = x; meas(:,k) = z; est(:,k) = xhat; end % 1D constant velocity Kalman filter example dt = 0
Goal: estimate x_k given measurements z_1..z_k. Predict: x̂_k-1 = A x̂_k-1 + B u_k-1 P_k-1 = A P_k-1 A^T + Q A = [1 dt