With a stationary webcam, I am taking sequential pictures of an object that is being displaced in each frame. I am trying to estimate the sub-pixel shift of each frame but the estimates are way off. Since the estimates where wrong in my first trial, I created a mask for the object and tried to estimate the shift with just the moving object while removing the background. But the estimates of the pixel shift were the same.

```
function delta_est = estimate_shift(s,n)
h = waitbar(0, 'Shift Estimation');
set(h, 'Name', 'Please wait...');
nr = length(s);
delta_est=zeros(nr,2);
p = [n n] % only the central (aliasing-free) part of NxN pixels is used for shift estimation
p(1)
sz = size(s{1});
S1 = fftshift(fft2(s{1})); % Fourier transform of the reference image
for i=2:nr
waitbar(i/nr, h, 'Shift Estimation');
S2 = fftshift(fft2(s{i})); % Fourier transform of the image to be registered
S2(S2==0)=1e-10;
Q = S1./S2;
A = angle(Q); % phase difference between the two images
% determine the central part of the frequency spectrum to be used
beginy = floor(sz(1)/2)-p(1)+1;
endy = floor(sz(1)/2)+p(1)+1;
beginx = floor(sz(2)/2)-p(2)+1;
endx = floor(sz(2)/2)+p(2)+1;
% compute x and y coordinates of the pixels
x = ones(endy-beginy+1,1)*[beginx:endx];
x = x(:);
y = [beginy:endy]'*ones(1,endx-beginx+1);
y = y(:);
v = A(beginy:endy,beginx:endx);
v = v(:);
% compute the least squares solution for the slopes of the phase difference plane
M_A = [x y ones(length(x),1)];
r = M_A\v;
delta_est(i,:) = -[r(2) r(1)].*sz/2/pi;
end
close(h);
```

What changes do I need to make to get the shift to the right sub-pixel estimation?