So I have had a few posts the last few days about using MatLab to perform a convolution (see here). But I am having issues and just want to try and use the convolution property of Fourier Transforms. I have the code below: width = 83.66;

```
x = linspace(-400,400,1000);
a2 = 1.205e+004 ;
al = 1.778e+005 ;
b1 = 94.88 ;
c1 = 224.3 ;
d = 4.077 ;
measured = al*exp(-((abs((x-b1)./c1).^d)))+a2;
%slit
rect = @(x) 0.5*(sign(x+0.5) - sign(x-0.5));
rt = rect(x/width);
subplot(5,1,1);plot(x,measured);title('imported data-super gaussian')
subplot(5,1,2);plot(x,(real(fftshift(fft(rt)))));title('transformed slit')
subplot(5,1,3);plot(x,rt);title('slit')
u = (fftshift(fft(measured)));
l = u./(real(fftshift(fft(rt))));
response = (fftshift(ifft(l)));
subplot(5,1,4);plot(x,real(response));title('response')
%Data Check
check = conv(rt,response,'full');
z = linspace(min(x),max(x),length(check));
subplot(5,1,5);plot(z,real(check));title('check')
```

My goal is to take my case, which is $measured = rt \ast signal$ and find signal. Once I find my signal, I convolve it with the rectangle and should get back `measured`

, but I do not get that.

I have very little matlab experience, and pretty much 0 signal processing experience (working with DFTs). So any advice on how to do this would be greatly appreciated!