Does MATLAB has matrix convolution function
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I know that MATLAB has a conv(u,v) function that can conduct convolution. Usually u are v are supposed to be vectors of real numbers or complex numbers. Does this function accept matrix input, i.e., u and v are both a sequence of matrices? If it can not, is there any function in MATLAB that can do this job? Thanks!
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Here's another method, requiring only stock MATLAB functions. As before, I assume that u is 2x2xM and v is 2xN, i.e., u(:,:,i) are the sequence of matrices and v(:,j) are the sequence of vectors.
u(:,:,M+1)=0;
U=num2cell(u,[1,2]);
L=M+N-1;
T=toeplitz(1:L,[1,ones(1,N-1)*(M+1)]);
T(T>M)=M+1;
result = cell2mat(U(T))*v(:);
result=reshape(result,2,[])
4 comentarios
Heng
el 10 de Mzo. de 2013
Heng
el 14 de Mzo. de 2013
OK, but bear in mind that this solution probably uses more for-loops than all the others, even though they are hidden from you. cell2mat and num2cell are implemented in .m files (MathWorks provided) and if you look inside them, you will see for-loops.
In fact, if you have a long sequences of small matrices/vectors to convolve, you may have actually chosen the slowest by far of my 3 proposals. See my timing comparison below.
M=2000;
N=2000;
nu=2;
u=rand(nu,nu,M);
v=rand(nu,N);
tic;%METHOD 1 - add up convolutions
nu=size(u,2);
result2=0;
for j=1:nu
t=squeeze(u(:,j,:));
result2 = result2 + conv2(t,v(j,:));
end
toc;
%Elapsed time is 0.039432 seconds.
mtimesx SPEED; %METHOD 2 - using MTIMESX
tic;
T=permute(mtimesx(u,v),[1,3,2]);
map=rot90(reshape(1:M*N,[M,N]));
d=-(N-1):(M-1);
L=length(d);
result1=zeros(2,L);
for ii= 1:L
idx=diag(map,d(ii));
result1(:,ii) = sum(T(:,idx),2);
end
toc
%Elapsed time is 0.312369 seconds.
tic; %METHOD 3 - using block Toeplitz matrices
u(:,:,M+1)=0;
U=num2cell(u,[1,2]);
L=M+N-1;
T=toeplitz(1:L,[1,ones(1,N-1)*(M+1)]);
T(T>M)=M+1;
result0 = cell2mat(U(T))*v(:);
result0=reshape(result0,2,[]);
toc;
%Elapsed time is 2.615746 seconds.
Más respuestas (3)
Below is a way you could reduce it to 1 loop, using FEX: mtimesx. In my example, I assume that u is 2x2xM and v is 2xN, i.e., u(:,:,i) are the sequence of matrices and v(:,j) are the sequence of vectors.
%%Fake data
M=5;
N=4;
u=repmat(eye(2),[1,1,M]);
v=ones(2,N);
%%Engine
T=permute(mtimesx(u,v),[1,3,2]);
map=reshape(1:M*N,[M,N]);
d=-(M-1):(N-1);
L=length(d);
result=zeros(2,L);
for ii= 1:L
idx=diag(map,d(ii));
result(:,ii) = sum(T(:,idx),2);
end
2 comentarios
Heng
el 10 de Mzo. de 2013
No, if you were to follow the definition, it would require 2 loops, one over k and one over j.
Also, you could vectorize the 1 loop I've left for you. I just doubt that it's worth it. The primary hard work (the sequence of matrix-vector multiplications) has been vectorized for you.
Image Analyst
el 10 de Mzo. de 2013
0 votos
Not sure I understand what you're asking. But yes, there is conv(), as you already know, and there are conv2() and convn() as well, that do convolution in 2 or higher dimensions. You can do "sequences of matrices" if your matrices care constructed correctly and you use the proper function.
Yet another approach and probably the best one, IMO, if you have a long sequence of small matrices. You'll notice that this uses a double for-loop, but the loops are very small since they only run over the dimensions of a single u(:,:,i). This method is also the most memory conservative.
[mu,nu,ku]=size(u);
[mv,nv]=size(v);
L=M+N-1;
result=zeros(nu,L);
for i=1:mu
c=0;
for j=1:nu
t=u(i,j,:);
c = c + conv(t(:).',v(j,:));
end
result(i,:)=c;
end
1 comentario
Even simpler, and only one small loop (in this case nu=2)!
nu=size(u,2);
result=0;
for j=1:nu
t=squeeze(u(:,j,:));
result = result + conv2(t,v(j,:));
end
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el 10 de Mzo. de 2013
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