Generating Toeplitz Matrix which Matches the Convolution Shape Same
Mostra commenti meno recenti
Given a filter vH I'm looking for vectors vR and vC such that:
toeplitz(vC, vR) * vX = conv(vX, vH, 'same');
For instance, for vH = [1, 2, 3, 4] and length(vX) = 7; the matrix is given by:
mH =
3 2 1 0 0 0 0
4 3 2 1 0 0 0
0 4 3 2 1 0 0
0 0 4 3 2 1 0
0 0 0 4 3 2 1
0 0 0 0 4 3 2
0 0 0 0 0 4 3
3 Commenti
Royi Avital
il 13 Gen 2020
Steven Lord
il 13 Gen 2020
The convmtx function from Signal Processing Toolbox comes close to doing what you want. I don't know offhand if there's a function in any MathWorks product that comes closer.
Is there a reason you don't want to simply call conv? [If you're expecting multiplying by the convolution matrix to be faster than calling conv, make sure you time the two operations using timeit to test if you're correct in your expectation.]
Royi Avital
il 14 Gen 2020
Risposta accettata
I am specifically asking about using the function toeplitz().
If it must be with toeplitz, then:
nH=numel(vH);
nX=numel(vX);
ic=ceil( (nH+1)/2);
kC=vH(ic:end);
kR=vH(ic:-1:1);
[vC,vR]=deal(sparse(1,nX));
vC(1:length(kC))=kC;
vR(1:length(kR))=kR;
1 Commento
vH=1:12;
vX=rand(1,6000);
nH=numel(vH);
nX=numel(vX);
ic=ceil( (nH+1)/2);
kC=vH(ic:end);
kR=vH(ic:-1:1);
vC=sparse(1,1:numel(kC),kC,1,nX);
vR=sparse(1,1:numel(kR),kR,1,nX);
tic;
mH1=toeplitz(vC,vR);
toc; %Elapsed time is 0.652667 seconds.
tic;
nH=numel(vH);
nX=numel(vX);
ic=ceil( (nH+1)/2);
mH2 = interpMatrix(vH,ic , nX,1);
toc; %Elapsed time is 0.004266 seconds.
>> isequal(mH1,mH2)
ans =
logical
1
Più risposte (3)
I'm very late to this question, but this is what I'd do:
% Even-sized filter smaller than input:
[vC, vR] = get_toeplitz_vectors(7, 1:4)
% Odd-sized filter smaller than input:
[vC, vR] = get_toeplitz_vectors(7, 1:5)
% Even-sized filter bigger than input:
[vC, vR] = get_toeplitz_vectors(3, 1:4)
% Odd-sized filter bigger than input:
[vC, vR] = get_toeplitz_vectors(3, 1:5)
function [vC, vR] = get_toeplitz_vectors(n, vH)
vC = zeros(n,1);
vR = zeros(1,n);
nh = numel(vH);
f = 1 + floor(nh/2);
vC(1:(nh-f+1)) = vH(f:nh);
vR(1:f) = vH(f:-1:1);
end
nH=numel(vH);
nX=numel(vX);
ic=ceil( (nH+1)/2);
mH = interpMatrix(vH,ic , nX,1);
Categorie
Scopri di più su Digital Filter Analysis in Centro assistenza e File Exchange
Prodotti
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
