ardupilot/libraries/AP_NavEKF/Models/QuaternionMathExample/FuseVelocity.m

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function [...
states, ... % state vector after fusion of measurements
P, ... % state covariance matrix after fusion of corrections
innovation,... % NED velocity innovations (m/s)
varInnov] ... % NED velocity innovation variance ((m/s)^2)
= FuseVelocity( ...
states, ... % predicted states from the INS
P, ... % predicted covariance
measVel) % NED velocity measurements (m/s)
R_OBS = 0.5^2;
innovation = zeros(1,3);
varInnov = zeros(1,3);
% Fuse measurements sequentially
for obsIndex = 1:3
stateIndex = 4 + obsIndex;
% Calculate the velocity measurement innovation
innovation(obsIndex) = states(stateIndex) - measVel(obsIndex);
% Calculate the Kalman Gain
H = zeros(1,10);
H(1,stateIndex) = 1;
varInnov(obsIndex) = (H*P*transpose(H) + R_OBS);
K = (P*transpose(H))/varInnov(obsIndex);
% Calculate state corrections
xk = K * innovation(obsIndex);
% Apply the state corrections
states = states - xk;
% re-normalise the quaternion
quatMag = sqrt(states(1)^2 + states(2)^2 + states(3)^2 + states(4)^2);
states(1:4) = states(1:4) / quatMag;
% Update the covariance
P = P - K*H*P;
% Force symmetry on the covariance matrix to prevent ill-conditioning
P = 0.5*(P + transpose(P));
% ensure diagonals are positive
for i=1:10
if P(i,i) < 0
P(i,i) = 0;
end
end
end
end