X-Git-Url: https://bilbo.iut-bm.univ-fcomte.fr/and/gitweb/these_gilles.git/blobdiff_plain/5efa829cb4570828a242e2baced8b215ea6029d5..6933b340c2bae6a25a33f2bb9a26c91bda0c171c:/THESE/codes/wave/allcode/denoising_dtdwt.m diff --git a/THESE/codes/wave/allcode/denoising_dtdwt.m b/THESE/codes/wave/allcode/denoising_dtdwt.m index 73377df..c750313 100644 --- a/THESE/codes/wave/allcode/denoising_dtdwt.m +++ b/THESE/codes/wave/allcode/denoising_dtdwt.m @@ -24,8 +24,8 @@ load nor_dualtree % run normaliz_coefcalc_dual_tree to generate this mat file % Forward dual-tree DWT % Either FSfarras or AntonB function can be used to compute the stage 1 filters -%[Faf, Fsf] = FSfarras; -[Faf, Fsf] = AntonB; +[Faf, Fsf] = FSfarras; +%[Faf, Fsf] = AntonB; [af, sf] = dualfilt1; W = cplxdual2D(x, J, Faf, af); W = normcoef(W,J,nor); @@ -77,4 +77,4 @@ y = icplxdual2D(W, J, Fsf, sf); % Extract the image ind = 2^(J-1)+1:2^(J-1)+L; -y = y(ind,ind); \ No newline at end of file +y = y(ind,ind);