I want to use CS to reconstruct an image from fewer samples.

I use Gaussian random matrix as measurement matrix. My problem is with Psi matrix which I want to be Haar wavelet coefficients but I don't know how to define it.

I have used DCT and Fourier basis and it worked well. Here is my code with Fourier basis.

Can anyone tell me how to define Psi matrix as haar wavelet transform?

Thanks in advance.

clear all
close all
Phi=randn(m,n);   %Measurment Matrix
Psi=fft(eye(n));   %sensing Matrix( or can be dct(eye(n)) )
y=Phi*x;  %compressed signal
%Initial Guess:  y=Theta*s => s=Theta\y
s1=OMP( Theta, y, 1e-3);

1 Answer 1


You just need to generate a haar matrix of appropriate dimensions. Consider this MATLAB function:

function [h]=haargen(N)
% Generating Haar Matrix
for k=1:N-1 
k1=2^p; t1=N/k1; 
k2=2^(p+1); t2=N/k2; 
for i=1:t2 
h(k+1,i+q*t1)   = (2^(p/2))/sqrt(N); 
h(k+1,i+q*t1+t2)    =-(2^(p/2))/sqrt(N); 


  • Yes I know that but it doesn't work.I mean after reconstruction with OMP algorithm the output is like noisy shape or something like that but when I run the code with DCT or Fourier it works well. Commented Mar 25, 2015 at 8:39
  • @HaybertMarkarian This is obvious, because if you see atoms of haar matrix are like square waves i.e. entries are root(2), 1 or -1. And with sparsity constraints your reconstruction will suffer. While for DCT or DFT we have sin/cosine of different frequencies and we are finding a best fourier series kind of representation.
    – Astro
    Commented Mar 26, 2015 at 8:53
  • @HaybertMarkarian One more thing, with haar matrix you get haar transform coefficients. In wavelets you generally do decomposition in several levels. And the energy packing properties of the Haar transform are not very good.
    – Astro
    Commented Mar 26, 2015 at 9:03
  • @HaybertMarkarian Alternatively for use of wavelets in CS, we first transforms the signal to obtain coefficient vector, then make it sparse by say thresholding and then sense it with measurement matrix. Finally we try to recover it back.
    – Astro
    Commented Mar 26, 2015 at 9:11
  • Thanks for your help. Actually I transformed my signal and made it sparse by thresholding and sense it with gaussian matrix. but my problem in this case is with recovering signal. As you know based on Cs we have y=phix=phipsys=tethas and OMP recovery algorithm which I downloaded from Justin Romberg's site wants me to define psy matrix and I don't know how to define it in wavelet case! cause I only have phi which is gaussian matrix and x which contains sparse wavelet coefficients of my signal. Commented Mar 28, 2015 at 9:11

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