summaryrefslogtreecommitdiffstats
path: root/Wrappers/Matlab/demos
diff options
context:
space:
mode:
authorDaniil Kazantsev <dkazanc@hotmail.com>2018-04-16 13:38:40 +0100
committerDaniil Kazantsev <dkazanc@hotmail.com>2018-04-16 13:38:40 +0100
commit80c5a5e5de2aca8d5c7b96f0adc91b5738cc9025 (patch)
treeebf4da0a18f0af799ae771b52513ac59a1228e1a /Wrappers/Matlab/demos
parent7ae26b005c5f3d9ca0181ab1cf06b6ee8df5ed69 (diff)
downloadregularization-80c5a5e5de2aca8d5c7b96f0adc91b5738cc9025.tar.gz
regularization-80c5a5e5de2aca8d5c7b96f0adc91b5738cc9025.tar.bz2
regularization-80c5a5e5de2aca8d5c7b96f0adc91b5738cc9025.tar.xz
regularization-80c5a5e5de2aca8d5c7b96f0adc91b5738cc9025.zip
SB TV method CPU/GPU added
Diffstat (limited to 'Wrappers/Matlab/demos')
-rw-r--r--Wrappers/Matlab/demos/demoMatlab_3Ddenoise.m34
-rw-r--r--Wrappers/Matlab/demos/demoMatlab_denoise.m33
2 files changed, 43 insertions, 24 deletions
diff --git a/Wrappers/Matlab/demos/demoMatlab_3Ddenoise.m b/Wrappers/Matlab/demos/demoMatlab_3Ddenoise.m
index dc49d9c..fb55097 100644
--- a/Wrappers/Matlab/demos/demoMatlab_3Ddenoise.m
+++ b/Wrappers/Matlab/demos/demoMatlab_3Ddenoise.m
@@ -14,35 +14,47 @@ end
vol3D(vol3D < 0) = 0;
figure; imshow(vol3D(:,:,15), [0 1]); title('Noisy image');
+
+lambda_reg = 0.03; % regularsation parameter for all methods
%%
fprintf('Denoise a volume using the ROF-TV model (CPU) \n');
-lambda_rof = 0.03; % regularisation parameter
tau_rof = 0.0025; % time-marching constant
iter_rof = 300; % number of ROF iterations
-tic; u_rof = ROF_TV(single(vol3D), lambda_rof, iter_rof, tau_rof); toc;
+tic; u_rof = ROF_TV(single(vol3D), lambda_reg, iter_rof, tau_rof); toc;
figure; imshow(u_rof(:,:,15), [0 1]); title('ROF-TV denoised volume (CPU)');
%%
% fprintf('Denoise a volume using the ROF-TV model (GPU) \n');
-% lambda_rof = 0.03; % regularisation parameter
% tau_rof = 0.0025; % time-marching constant
% iter_rof = 300; % number of ROF iterations
-% tic; u_rofG = ROF_TV_GPU(single(vol3D), lambda_rof, iter_rof, tau_rof); toc;
+% tic; u_rofG = ROF_TV_GPU(single(vol3D), lambda_reg, iter_rof, tau_rof); toc;
% figure; imshow(u_rofG(:,:,15), [0 1]); title('ROF-TV denoised volume (GPU)');
%%
fprintf('Denoise a volume using the FGP-TV model (CPU) \n');
-lambda_fgp = 0.03; % regularisation parameter
iter_fgp = 300; % number of FGP iterations
epsil_tol = 1.0e-05; % tolerance
-tic; u_fgp = FGP_TV(single(vol3D), lambda_fgp, iter_fgp, epsil_tol); toc;
+tic; u_fgp = FGP_TV(single(vol3D), lambda_reg, iter_fgp, epsil_tol); toc;
figure; imshow(u_fgp(:,:,15), [0 1]); title('FGP-TV denoised volume (CPU)');
%%
% fprintf('Denoise a volume using the FGP-TV model (GPU) \n');
-% lambda_fgp = 0.03; % regularisation parameter
% iter_fgp = 300; % number of FGP iterations
% epsil_tol = 1.0e-05; % tolerance
-% tic; u_fgpG = FGP_TV_GPU(single(vol3D), lambda_fgp, iter_fgp, epsil_tol); toc;
+% tic; u_fgpG = FGP_TV_GPU(single(vol3D), lambda_reg, iter_fgp, epsil_tol); toc;
% figure; imshow(u_fgpG(:,:,15), [0 1]); title('FGP-TV denoised volume (GPU)');
%%
+fprintf('Denoise a volume using the SB-TV model (CPU) \n');
+iter_sb = 150; % number of SB iterations
+epsil_tol = 1.0e-05; % tolerance
+tic; u_sb = SB_TV(single(vol3D), lambda_reg, iter_sb, epsil_tol); toc;
+figure; imshow(u_sb(:,:,15), [0 1]); title('SB-TV denoised volume (CPU)');
+%%
+% fprintf('Denoise a volume using the SB-TV model (GPU) \n');
+% iter_sb = 150; % number of SB iterations
+% epsil_tol = 1.0e-05; % tolerance
+% tic; u_sbG = SB_TV_GPU(single(vol3D), lambda_reg, iter_sb, epsil_tol); toc;
+% figure; imshow(u_sbG(:,:,15), [0 1]); title('SB-TV denoised volume (GPU)');
+%%
+
+%>>>>>>>>>>>>>> MULTI-CHANNEL priors <<<<<<<<<<<<<<< %
fprintf('Denoise a volume using the FGP-dTV model (CPU) \n');
% create another volume (reference) with slightly less amount of noise
@@ -53,11 +65,10 @@ end
vol3D_ref(vol3D_ref < 0) = 0;
% vol3D_ref = zeros(size(Im),'single'); % pass zero reference (dTV -> TV)
-lambda_fgp = 0.03; % regularisation parameter
iter_fgp = 300; % number of FGP iterations
epsil_tol = 1.0e-05; % tolerance
eta = 0.2; % Reference image gradient smoothing constant
-tic; u_fgp_dtv = FGP_dTV(single(vol3D), single(vol3D_ref), lambda_fgp, iter_fgp, epsil_tol, eta); toc;
+tic; u_fgp_dtv = FGP_dTV(single(vol3D), single(vol3D_ref), lambda_reg, iter_fgp, epsil_tol, eta); toc;
figure; imshow(u_fgp_dtv(:,:,15), [0 1]); title('FGP-dTV denoised volume (CPU)');
%%
fprintf('Denoise a volume using the FGP-dTV model (GPU) \n');
@@ -70,10 +81,9 @@ end
vol3D_ref(vol3D_ref < 0) = 0;
% vol3D_ref = zeros(size(Im),'single'); % pass zero reference (dTV -> TV)
-lambda_fgp = 0.03; % regularisation parameter
iter_fgp = 300; % number of FGP iterations
epsil_tol = 1.0e-05; % tolerance
eta = 0.2; % Reference image gradient smoothing constant
-tic; u_fgp_dtv_g = FGP_dTV_GPU(single(vol3D), single(vol3D_ref), lambda_fgp, iter_fgp, epsil_tol, eta); toc;
+tic; u_fgp_dtv_g = FGP_dTV_GPU(single(vol3D), single(vol3D_ref), lambda_reg, iter_fgp, epsil_tol, eta); toc;
figure; imshow(u_fgp_dtv_g(:,:,15), [0 1]); title('FGP-dTV denoised volume (GPU)');
%% \ No newline at end of file
diff --git a/Wrappers/Matlab/demos/demoMatlab_denoise.m b/Wrappers/Matlab/demos/demoMatlab_denoise.m
index 145f2ff..129bedc 100644
--- a/Wrappers/Matlab/demos/demoMatlab_denoise.m
+++ b/Wrappers/Matlab/demos/demoMatlab_denoise.m
@@ -8,45 +8,55 @@ Im = double(imread('lena_gray_512.tif'))/255; % loading image
u0 = Im + .05*randn(size(Im)); u0(u0 < 0) = 0;
figure; imshow(u0, [0 1]); title('Noisy image');
+lambda_reg = 0.03; % regularsation parameter for all methods
%%
fprintf('Denoise using the ROF-TV model (CPU) \n');
-lambda_rof = 0.03; % regularisation parameter
tau_rof = 0.0025; % time-marching constant
iter_rof = 2000; % number of ROF iterations
-tic; u_rof = ROF_TV(single(u0), lambda_rof, iter_rof, tau_rof); toc;
+tic; u_rof = ROF_TV(single(u0), lambda_reg, iter_rof, tau_rof); toc;
figure; imshow(u_rof, [0 1]); title('ROF-TV denoised image (CPU)');
%%
% fprintf('Denoise using the ROF-TV model (GPU) \n');
-% lambda_rof = 0.03; % regularisation parameter
% tau_rof = 0.0025; % time-marching constant
% iter_rof = 2000; % number of ROF iterations
-% tic; u_rofG = ROF_TV_GPU(single(u0), lambda_rof, iter_rof, tau_rof); toc;
+% tic; u_rofG = ROF_TV_GPU(single(u0), lambda_reg, iter_rof, tau_rof); toc;
% figure; imshow(u_rofG, [0 1]); title('ROF-TV denoised image (GPU)');
%%
fprintf('Denoise using the FGP-TV model (CPU) \n');
-lambda_fgp = 0.03; % regularisation parameter
iter_fgp = 1000; % number of FGP iterations
epsil_tol = 1.0e-06; % tolerance
-tic; u_fgp = FGP_TV(single(u0), lambda_fgp, iter_fgp, epsil_tol); toc;
+tic; u_fgp = FGP_TV(single(u0), lambda_reg, iter_fgp, epsil_tol); toc;
figure; imshow(u_fgp, [0 1]); title('FGP-TV denoised image (CPU)');
%%
% fprintf('Denoise using the FGP-TV model (GPU) \n');
-% lambda_fgp = 0.03; % regularisation parameter
% iter_fgp = 1000; % number of FGP iterations
% epsil_tol = 1.0e-05; % tolerance
-% tic; u_fgpG = FGP_TV_GPU(single(u0), lambda_fgp, iter_fgp, epsil_tol); toc;
+% tic; u_fgpG = FGP_TV_GPU(single(u0), lambda_reg, iter_fgp, epsil_tol); toc;
% figure; imshow(u_fgpG, [0 1]); title('FGP-TV denoised image (GPU)');
%%
+fprintf('Denoise using the SB-TV model (CPU) \n');
+iter_sb = 150; % number of SB iterations
+epsil_tol = 1.0e-06; % tolerance
+tic; u_sb = SB_TV(single(u0), lambda_reg, iter_sb, epsil_tol); toc;
+figure; imshow(u_sb, [0 1]); title('SB-TV denoised image (CPU)');
+%%
+% fprintf('Denoise using the SB-TV model (GPU) \n');
+% iter_sb = 150; % number of SB iterations
+% epsil_tol = 1.0e-06; % tolerance
+% tic; u_sbG = SB_TV_GPU(single(u0), lambda_reg, iter_sb, epsil_tol); toc;
+% figure; imshow(u_sbG, [0 1]); title('SB-TV denoised image (GPU)');
+%%
+%>>>>>>>>>>>>>> MULTI-CHANNEL priors <<<<<<<<<<<<<<< %
+
fprintf('Denoise using the FGP-dTV model (CPU) \n');
% create another image (reference) with slightly less amount of noise
u_ref = Im + .01*randn(size(Im)); u_ref(u_ref < 0) = 0;
% u_ref = zeros(size(Im),'single'); % pass zero reference (dTV -> TV)
-lambda_fgp = 0.03; % regularisation parameter
iter_fgp = 1000; % number of FGP iterations
epsil_tol = 1.0e-06; % tolerance
eta = 0.2; % Reference image gradient smoothing constant
-tic; u_fgp_dtv = FGP_dTV(single(u0), single(u_ref), lambda_fgp, iter_fgp, epsil_tol, eta); toc;
+tic; u_fgp_dtv = FGP_dTV(single(u0), single(u_ref), lambda_reg, iter_fgp, epsil_tol, eta); toc;
figure; imshow(u_fgp_dtv, [0 1]); title('FGP-dTV denoised image (CPU)');
%%
% fprintf('Denoise using the FGP-dTV model (GPU) \n');
@@ -54,10 +64,9 @@ figure; imshow(u_fgp_dtv, [0 1]); title('FGP-dTV denoised image (CPU)');
% u_ref = Im + .01*randn(size(Im)); u_ref(u_ref < 0) = 0;
% % u_ref = zeros(size(Im),'single'); % pass zero reference (dTV -> TV)
%
-% lambda_fgp = 0.03; % regularisation parameter
% iter_fgp = 1000; % number of FGP iterations
% epsil_tol = 1.0e-06; % tolerance
% eta = 0.2; % Reference image gradient smoothing constant
-% tic; u_fgp_dtvG = FGP_dTV_GPU(single(u0), single(u_ref), lambda_fgp, iter_fgp, epsil_tol, eta); toc;
+% tic; u_fgp_dtvG = FGP_dTV_GPU(single(u0), single(u_ref), lambda_reg, iter_fgp, epsil_tol, eta); toc;
% figure; imshow(u_fgp_dtvG, [0 1]); title('FGP-dTV denoised image (GPU)');
%%