I have a video and I have to locate the position of a ball using the Kalman equations. Suppose the initial position of the ball in the first frame `(xi,yi)`

is known.

Please guide me what would be the current position `(currx,curry);`

as in the code below in subsequent frames.

What I have so far:

```
R = [0.2845 0.0045;0.0045 0.0455];
Hi = [1 0 0 0; 0 1 0 0];
Q = 0.01*eye(4);
Pe = 100*eye(4);
F = [1 0 0 0; 0 1 0 0; 0 0 1 0; 0 0 0 1];
x = zeros(569,4);
kfinite = false;
for k = 1:nframes
% Kalman initialization
if ~kfinite
Au = [xi yi 0 0].';
currx = xi;
curry = yi;
% Prediction 1st equation
else
u = [x1 y1 0 0].';
Au = F*x(k-1,:).' + u;
currx = xi;
curry = yi;
end
vx = currx-Au(1);
vy = curry-Au(2);
xactual = [currx curry vx vy].';
xactualnext = F*xactual;
ydesirednext = Hi*xactualnext;
% Prediction 2nd equation
pp = F*Pe*F.' + Q;
% correction 3rd equation
K = pp*Hi.' / (Hi*pp*Hi.' + R);
% correction 4th equation
Anu = Au + K*(ydesirednext - Hi*Au);
% correction 5th equation
Pe = (eye(4) - K*Hi)*pp;
x1 = Anu(1);
x2 = Anu(2);
kfinite = true;
end
```

code you write -- you will likely be spending quite some timeANYreadingyour code, much more than it takes to write it. Better make reading it as easy as possible. There is no paper to save, so please don't save up on whitespace. – Rody Oldenhuis Nov 5 '12 at 10:33