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1 %% DICTIONARY LEARNING FOR IMAGE DENOISING
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ivan@107
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2
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3 %
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4 % This file contains an example of how SMALLbox can be used to test different
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idamnjanovic@6
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5 % dictionary learning techniques in Image Denoising problem.
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6 % It calls generateImageDenoiseProblem that will let you to choose image,
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7 % add noise and use noisy image to generate training set for dictionary
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8 % learning.
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9 % Three dictionary learning techniques were compared:
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10 % - KSVD - M. Elad, R. Rubinstein, and M. Zibulevsky, "Efficient
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11 % Implementation of the K-SVD Algorithm using Batch Orthogonal
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12 % Matching Pursuit", Technical Report - CS, Technion, April 2008.
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13 % - KSVDS - R. Rubinstein, M. Zibulevsky, and M. Elad, "Learning Sparse
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14 % Dictionaries for Sparse Signal Approximation", Technical
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idamnjanovic@6
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15 % Report - CS, Technion, June 2009.
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16 % - SPAMS - J. Mairal, F. Bach, J. Ponce and G. Sapiro. Online
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17 % Dictionary Learning for Sparse Coding. International
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18 % Conference on Machine Learning,Montreal, Canada, 2009
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19 %
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20
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21 %
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22 % Centre for Digital Music, Queen Mary, University of London.
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23 % This file copyright 2009 Ivan Damnjanovic.
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24 %
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25 % This program is free software; you can redistribute it and/or
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26 % modify it under the terms of the GNU General Public License as
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27 % published by the Free Software Foundation; either version 2 of the
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28 % License, or (at your option) any later version. See the file
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29 % COPYING included with this distribution for more information.
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30 %
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31 %%
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32
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33 clear;
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34
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35 % If you want to load the image outside of generateImageDenoiseProblem
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36 % function uncomment following lines. This can be useful if you want to
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37 % denoise more then one image for example.
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38
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39 % TMPpath=pwd;
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40 % FS=filesep;
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41 % [pathstr1, name, ext, versn] = fileparts(which('SMALLboxSetup.m'));
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42 % cd([pathstr1,FS,'data',FS,'images']);
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43 % [filename,pathname] = uigetfile({'*.png;'},'Select a file containin pre-calculated notes');
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44 % [pathstr, name, ext, versn] = fileparts(filename);
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45 % test_image = imread(filename);
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46 % test_image = double(test_image);
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47 % cd(TMPpath);
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48 % SMALL.Problem.name=name;
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49
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50
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51 % Defining Image Denoising Problem as Dictionary Learning
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52 % Problem. As an input we set the number of training patches.
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53
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54 SMALL.Problem = generateImageDenoiseProblem('', 40000);
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55
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56
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57 %%
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58 % Use KSVD Dictionary Learning Algorithm to Learn overcomplete dictionary
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59
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60 % Initialising Dictionary structure
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61 % Setting Dictionary structure fields (toolbox, name, param, D and time)
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62 % to zero values
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63
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64 SMALL.DL(1)=SMALL_init_DL();
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65
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66 % Defining the parameters needed for dictionary learning
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67
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68 SMALL.DL(1).toolbox = 'KSVD';
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69 SMALL.DL(1).name = 'ksvd';
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70
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71 % Defining the parameters for KSVD
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72 % In this example we are learning 256 atoms in 20 iterations, so that
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73 % every patch in the training set can be represented with target error in
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74 % L2-norm (EData)
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75 % Type help ksvd in MATLAB prompt for more options.
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76
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77 Edata=sqrt(prod(SMALL.Problem.blocksize)) * SMALL.Problem.sigma * SMALL.Problem.gain;
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78 maxatoms = floor(prod(SMALL.Problem.blocksize)/2);
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79
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80 SMALL.DL(1).param=struct(...
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81 'Edata', Edata,...
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82 'initdict', SMALL.Problem.initdict,...
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83 'dictsize', SMALL.Problem.p,...
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84 'iternum', 20,...
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85 'memusage', 'high');
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86
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87 % Learn the dictionary
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88
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89 SMALL.DL(1) = SMALL_learn(SMALL.Problem, SMALL.DL(1));
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90
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91 % Set SMALL.Problem.A dictionary
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92 % (backward compatiblity with SPARCO: solver structure communicate
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93 % only with Problem structure, ie no direct communication between DL and
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94 % solver structures)
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95
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96 SMALL.Problem.A = SMALL.DL(1).D;
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97 SMALL.Problem.reconstruct = @(x) ImgDenoise_reconstruct(x, SMALL.Problem);
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98
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99 %%
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100 % Initialising solver structure
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101 % Setting solver structure fields (toolbox, name, param, solution,
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102 % reconstructed and time) to zero values
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103
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104 SMALL.solver(1)=SMALL_init_solver;
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105
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106 % Defining the parameters needed for image denoising
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107
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108 SMALL.solver(1).toolbox='ompbox';
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109 SMALL.solver(1).name='omp2';
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110 SMALL.solver(1).param=struct(...
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111 'epsilon',Edata,...
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112 'maxatoms', maxatoms);
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113
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114 % Denoising the image - find the sparse solution in the learned
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115 % dictionary for all patches in the image and the end it uses
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116 % reconstruction function to reconstruct the patches and put them into a
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117 % denoised image
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118
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119 SMALL.solver(1)=SMALL_solve(SMALL.Problem, SMALL.solver(1));
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120
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121 % Show PSNR after reconstruction
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122
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123 SMALL.solver(1).reconstructed.psnr
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124
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125 %%
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126 % Use KSVDS Dictionary Learning Algorithm to denoise image
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127
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128 % Initialising solver structure
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129 % Setting solver structure fields (toolbox, name, param, solution,
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130 % reconstructed and time) to zero values
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131
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132 SMALL.DL(2)=SMALL_init_DL();
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133
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134 % Defining the parameters needed for dictionary learning
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135
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136 SMALL.DL(2).toolbox = 'KSVDS';
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137 SMALL.DL(2).name = 'ksvds';
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138
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139 % Defining the parameters for KSVDS
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140 % In this example we are learning 256 atoms in 20 iterations, so that
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141 % every patch in the training set can be represented with target error in
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142 % L2-norm (EDataS). We also impose "double sparsity" - dictionary itself
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143 % has to be sparse in the given base dictionary (Tdict - number of
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144 % nonzero elements per atom).
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145 % Type help ksvds in MATLAB prompt for more options.
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146
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147 EdataS=sqrt(prod(SMALL.Problem.blocksize)) * SMALL.Problem.sigma * SMALL.Problem.gain;
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148 SMALL.DL(2).param=struct(...
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149 'Edata', EdataS, ...
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150 'Tdict', 6,...
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151 'stepsize', 1,...
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152 'dictsize', SMALL.Problem.p,...
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153 'iternum', 20,...
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154 'memusage', 'high');
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155 SMALL.DL(2).param.initA = speye(SMALL.Problem.p);
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156 SMALL.DL(2).param.basedict{1} = odctdict(8,16);
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157 SMALL.DL(2).param.basedict{2} = odctdict(8,16);
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158
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159 % Learn the dictionary
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160
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161 SMALL.DL(2) = SMALL_learn(SMALL.Problem, SMALL.DL(2));
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162
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163 % Set SMALL.Problem.A dictionary and SMALL.Problem.basedictionary
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164 % (backward compatiblity with SPARCO: solver structure communicate
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idamnjanovic@6
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165 % only with Problem structure, ie no direct communication between DL and
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166 % solver structures)
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167
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168 SMALL.Problem.A = SMALL.DL(2).D;
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169 SMALL.Problem.basedict{1} = SMALL.DL(2).param.basedict{1};
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170 SMALL.Problem.basedict{2} = SMALL.DL(2).param.basedict{2};
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171
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172 % Setting up reconstruction function
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173
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174 SparseDict=1;
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175 SMALL.Problem.reconstruct = @(x) ImgDenoise_reconstruct(x, SMALL.Problem, SparseDict);
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176
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177 % Initialising solver structure
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idamnjanovic@6
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178 % Setting solver structure fields (toolbox, name, param, solution,
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179 % reconstructed and time) to zero values
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180
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181 SMALL.solver(2)=SMALL_init_solver;
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182
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idamnjanovic@6
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183 % Defining the parameters needed for image denoising
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184
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185 SMALL.solver(2).toolbox='ompsbox';
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186 SMALL.solver(2).name='omps2';
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187 SMALL.solver(2).param=struct(...
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188 'epsilon',Edata,...
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189 'maxatoms', maxatoms);
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190
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191 % Denoising the image - find the sparse solution in the learned
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192 % dictionary for all patches in the image and the end it uses
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193 % reconstruction function to reconstruct the patches and put them into a
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194 % denoised image
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195
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196 SMALL.solver(2)=SMALL_solve(SMALL.Problem, SMALL.solver(2));
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197
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198 %%
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199 % Use SPAMS Online Dictionary Learning Algorithm
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200 % to Learn overcomplete dictionary (Julien Mairal 2009)
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201 % (If you have not installed SPAMS please comment the following two cells)
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202
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203 % Initialising Dictionary structure
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ivan@107
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204 % Setting Dictionary structure fields (toolbox, name, param, D and time)
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205 % to zero values
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206
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207 SMALL.DL(3)=SMALL_init_DL();
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208
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209 % Defining fields needed for dictionary learning
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210
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211 SMALL.DL(3).toolbox = 'SPAMS';
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212 SMALL.DL(3).name = 'mexTrainDL';
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213
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214 % Type 'help mexTrainDL in MATLAB prompt for explanation of parameters.
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215
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216 SMALL.DL(3).param=struct(...
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217 'D', SMALL.Problem.initdict,...
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218 'K', SMALL.Problem.p,...
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219 'lambda', 2,...
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220 'iter', 200,...
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221 'mode', 3, ...
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222 'modeD', 0);
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223
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224 % Learn the dictionary
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225
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226 SMALL.DL(3) = SMALL_learn(SMALL.Problem, SMALL.DL(3));
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227
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228 % Set SMALL.Problem.A dictionary
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229 % (backward compatiblity with SPARCO: solver structure communicate
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230 % only with Problem structure, ie no direct communication between DL and
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231 % solver structures)
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232
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233 SMALL.Problem.A = SMALL.DL(3).D;
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234
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235 % Setting up reconstruction function
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236
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237 SMALL.Problem.reconstruct = @(x) ImgDenoise_reconstruct(x, SMALL.Problem);
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238
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ivan@107
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239 % Initialising solver structure
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ivan@107
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240 % Setting solver structure fields (toolbox, name, param, solution,
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241 % reconstructed and time) to zero values
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242
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243 SMALL.solver(3)=SMALL_init_solver;
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244
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245 % Defining the parameters needed for image denoising
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246
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247 SMALL.solver(3).toolbox='ompbox';
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248 SMALL.solver(3).name='omp2';
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249 SMALL.solver(3).param=struct(...
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250 'epsilon',Edata,...
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251 'maxatoms', maxatoms);
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252
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253 % Denoising the image - find the sparse solution in the learned
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254 % dictionary for all patches in the image and the end it uses
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255 % reconstruction function to reconstruct the patches and put them into a
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256 % denoised image
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257
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258 SMALL.solver(3)=SMALL_solve(SMALL.Problem, SMALL.solver(3));
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259
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260 %%
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261 % Plot results and save midi files
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262
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263 % show results %
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264
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265 SMALL_ImgDeNoiseResult(SMALL);
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