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1 function declippingExperiment(expParam)
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2 % Declip several sounds with different clipping levels, using several
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3 % solvers.
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4 %
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5 % Usage: declippingExperiment(expParam)
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6 %
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7 %
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8 % Inputs:
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9 % - expParam is an optional structure where the user can define
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10 % the experiment parameters.
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11 % - expParam.clippingScale: clipping values to test, as a vector
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12 % of real numbers in ]0,1[.
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13 % - expParam.soundDir: path to sound directory. All the .wav files
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14 % in this directory will be tested.
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15 % - expParam.destDir: path to store the results.
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16 % - expParam.solvers: list of solvers with their parameters
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17 %
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18 %
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19 % -------------------
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20 %
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21 % Audio Inpainting toolbox
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22 % Date: June 28, 2011
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23 % By Valentin Emiya, Amir Adler, Maria Jafari
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24 % This code is distributed under the terms of the GNU Public License version 3 (http://www.gnu.org/licenses/gpl.txt).
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25
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26 if ~isdeployed
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27 addpath('../../Problems/');
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28 addpath('../../Solvers/');
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29 addpath('../../Utils/');
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30 addpath('../../Utils/dictionaries/');
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31 addpath('../../Utils/evaluation/');
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32 % addpath('../../Utils/TCPIP_SocketCom/');
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33 % javaaddpath('../../Utils/TCPIP_SocketCom');
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34 dbstop if error
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35 close all
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36 end
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37
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38 if nargin<1
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39 expParam = [];
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40 end
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41 if ~isfield(expParam,'clippingScale'),
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42 expParam.clippingScale = 0.4:0.2:0.8;
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43 end
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44 if ~isfield(expParam,'soundDir'),
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45 expParam.soundDir = '../../Data/testSpeech8kHz_from16kHz/';
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46 expParam.soundDir = '../../Data/shortTest/';
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47 warning('AITB:soundDir','soundDir has only one sound to have faster computations. Recommended soundDir: ../../Data/testSpeech8kHz_from16kHz/');
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48 end
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49 if ~isfield(expParam,'destDir'),
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50 expParam.destDir = '../../tmp/declip/';
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51 end
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52
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53 %% Set parameters
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54
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55 if ~isfield(expParam,'solvers'),
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56 % Choose the solver methods you would like to test: OMP, L1, Janssen
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57 warning('AITB:N','Frame length=256 is used to have faster computations. Recommended frame length is 512 at 8kHz.');
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58 warning('AITB:overlap','Overlap factor=2 is used to have faster computations. Recommended value: 4.');
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59 nSolver = 0;
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60
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61 nSolver = nSolver+1;
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62 expParam.solvers(nSolver).name = 'OMP-C';
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63 expParam.solvers(nSolver).function = @inpaintSignal_IndependentProcessingOfFrames;
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64 expParam.solvers(nSolver).param.N = 512; % frame length
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65 expParam.solvers(nSolver).param.N = 256; % frame length
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66 expParam.solvers(nSolver).param.inpaintFrame = @inpaintFrame_OMP; % solver function
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67 expParam.solvers(nSolver).param.OMPerr = 0.001;
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68 expParam.solvers(nSolver).param.sparsityDegree = expParam.solvers(nSolver).param.N/4;
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69 expParam.solvers(nSolver).param.D_fun = @DCT_Dictionary; % Dictionary (function handle)
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70 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 4;
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71 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 2;
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72 expParam.solvers(nSolver).param.redundancyFactor = 2; % Dictionary redundancy
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73 expParam.solvers(nSolver).param.wd = @wRect; % Weighting window for dictionary atoms
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74 expParam.solvers(nSolver).param.wa = @wRect; % Analysis window
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75 expParam.solvers(nSolver).param.OLA_ws = @wSine; % Synthesis window
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76 expParam.solvers(nSolver).param.SKIP_CLEAN_FRAMES = true; % do not process frames where there is no missing samples
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77 expParam.solvers(nSolver).param.MULTITHREAD_FRAME_PROCESSING = false; % not implemented yet
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78
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79 nSolver = nSolver+1;
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80 expParam.solvers(nSolver).name = 'consOMP-C';
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81 expParam.solvers(nSolver).function = @inpaintSignal_IndependentProcessingOfFrames;
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82 expParam.solvers(nSolver).param.N = 512; % frame length
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83 expParam.solvers(nSolver).param.N = 256; % frame length
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84 expParam.solvers(nSolver).param.inpaintFrame = @inpaintFrame_consOMP; % solver function
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85 expParam.solvers(nSolver).param.OMPerr = 0.001;
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86 expParam.solvers(nSolver).param.sparsityDegree = expParam.solvers(nSolver).param.N/4;
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87 expParam.solvers(nSolver).param.D_fun = @DCT_Dictionary; % Dictionary (function handle)
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88 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 4;
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89 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 2;
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90 expParam.solvers(nSolver).param.redundancyFactor = 2; % Dictionary redundancy
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91 expParam.solvers(nSolver).param.wd = @wRect; % Weighting window for dictionary atoms
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92 expParam.solvers(nSolver).param.wa = @wRect; % Analysis window
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93 expParam.solvers(nSolver).param.OLA_ws = @wSine; % Synthesis window
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94 expParam.solvers(nSolver).param.SKIP_CLEAN_FRAMES = true; % do not process frames where there is no missing samples
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95 expParam.solvers(nSolver).param.MULTITHREAD_FRAME_PROCESSING = false; % not implemented yet
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96
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97 nSolver = nSolver+1;
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98 expParam.solvers(nSolver).name = 'OMP-G';
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99 expParam.solvers(nSolver).function = @inpaintSignal_IndependentProcessingOfFrames;
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100 expParam.solvers(nSolver).param.N = 512; % frame length
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101 expParam.solvers(nSolver).param.N = 256; % frame length
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102 expParam.solvers(nSolver).param.inpaintFrame = @inpaintFrame_OMP_Gabor; % solver function
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103 expParam.solvers(nSolver).param.OMPerr = 0.001;
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104 expParam.solvers(nSolver).param.sparsityDegree = expParam.solvers(nSolver).param.N/4;
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105 expParam.solvers(nSolver).param.D_fun = @Gabor_Dictionary; % Dictionary (function handle)
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106 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 4;
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107 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 2;
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108 expParam.solvers(nSolver).param.redundancyFactor = 2; % Dictionary redundancy
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109 expParam.solvers(nSolver).param.wd = @wRect; % Weighting window for dictionary atoms
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110 expParam.solvers(nSolver).param.wa = @wRect; % Analysis window
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111 expParam.solvers(nSolver).param.OLA_ws = @wSine; % Synthesis window
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112 expParam.solvers(nSolver).param.SKIP_CLEAN_FRAMES = true; % do not process frames where there is no missing samples
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113 expParam.solvers(nSolver).param.MULTITHREAD_FRAME_PROCESSING = false; % not implemented yet
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114
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115 nSolver = nSolver+1;
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116 expParam.solvers(nSolver).name = 'consOMP-G';
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117 expParam.solvers(nSolver).function = @inpaintSignal_IndependentProcessingOfFrames;
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118 expParam.solvers(nSolver).param.N = 512; % frame length
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119 expParam.solvers(nSolver).param.N = 256; % frame length
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120 expParam.solvers(nSolver).param.inpaintFrame = @inpaintFrame_consOMP_Gabor; % solver function
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121 expParam.solvers(nSolver).param.OMPerr = 0.001;
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122 expParam.solvers(nSolver).param.sparsityDegree = expParam.solvers(nSolver).param.N/4;
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123 expParam.solvers(nSolver).param.D_fun = @Gabor_Dictionary; % Dictionary (function handle)
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124 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 4;
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125 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 2
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126 expParam.solvers(nSolver).param.redundancyFactor = 2; % Dictionary redundancy
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127 expParam.solvers(nSolver).param.wd = @wRect; % Weighting window for dictionary atoms
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128 expParam.solvers(nSolver).param.wa = @wRect; % Analysis window
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129 expParam.solvers(nSolver).param.OLA_ws = @wSine; % Synthesis window
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130 expParam.solvers(nSolver).param.SKIP_CLEAN_FRAMES = true; % do not process frames where there is no missing samples
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131 expParam.solvers(nSolver).param.MULTITHREAD_FRAME_PROCESSING = false; % not implemented yet
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132
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133 nSolver = nSolver+1;
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134 expParam.solvers(nSolver).name = 'Janssen';
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135 expParam.solvers(nSolver).function = @inpaintSignal_IndependentProcessingOfFrames;
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136 expParam.solvers(nSolver).param.inpaintFrame = @inpaintFrame_janssenInterpolation; % solver function
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137 expParam.solvers(nSolver).param.N = 512; % frame length
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138 expParam.solvers(nSolver).param.N = 256;
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139 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 4;
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140 expParam.solvers(nSolver).param.OLA_frameOverlapFactor = 2
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141 expParam.solvers(nSolver).param.wa = @wRect; % Analysis window
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142 expParam.solvers(nSolver).param.OLA_ws = @wSine; % Synthesis window
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143 expParam.solvers(nSolver).param.SKIP_CLEAN_FRAMES = true; % do not process frames where there is no missing samples
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144 expParam.solvers(nSolver).param.MULTITHREAD_FRAME_PROCESSING = false; % not implemented yet
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145 end
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146
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147 SNRClip = zeros(0,0,0);
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148 fprintf('Folder %s\n',expParam.soundDir);
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149 if ~exist(expParam.destDir,'dir')
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150 mkdir(expParam.destDir)
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151 end
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152 soundFiles = dir([expParam.soundDir '*.wav']);
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153
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154 for kf = 1:length(soundFiles)
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155 soundfile = [expParam.soundDir soundFiles(kf).name];
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156 fprintf(' File %s\n',soundfile);
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157 %% Read test signal
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158 [x fs] = wavread(soundfile);
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159
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160 for kClip = 1:length(expParam.clippingScale)
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161 clippingLevel = expParam.clippingScale(kClip);
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162 fprintf(' Clip level %g\n',clippingLevel);
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163
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164 %% Generate the problem
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165 [problemData, solutionData] = generateDeclippingProblem(x,clippingLevel);
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166
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167 for nSolver = 1:length(expParam.solvers)
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168 %% Declip with solver
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169 solverParam = expParam.solvers(nSolver).param;
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170 [xEst1 xEst2] = expParam.solvers(nSolver).function(problemData,solverParam);
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171
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172 %% compute performance
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173 L = length(xEst1);
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174 N = solverParam.N;
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175 [SNRAll, SNRmiss] = ...
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176 SNRInpaintingPerformance(...
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177 solutionData.xClean(N:L-N),...
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178 problemData.x(N:L-N),...
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179 xEst2(N:L-N),...
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180 problemData.IMiss(N:L-N));
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181 SNRClip(kf,kClip,nSolver) = SNRmiss(2);
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182
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183 % normalize and save both the reference and the estimates!
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184 normX = 1.1*max(abs([xEst1(:);xEst2(:);solutionData.xClean(:)]));
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185
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186 L = min([length(xEst2),length(xEst1),length(solutionData.xClean),length(problemData.x)]);
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187 xEst1 = xEst1(1:L)/normX;
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188 xEst2 = xEst2(1:L)/normX;
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189 xClipped = problemData.x(1:L)/normX;
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190 xClean = solutionData.xClean(1:L)/normX;
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191 wavwrite(xEst1,fs,sprintf('%s%s%s%g.wav',expParam.destDir,soundFiles(kf).name(1:end-4),'Est1',clippingLevel));
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192 wavwrite(xEst2,fs,sprintf('%s%s%s%g.wav',expParam.destDir,soundFiles(kf).name(1:end-4),'Est2',clippingLevel));
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193 wavwrite(xClipped,fs,sprintf('%s%s%s%g.wav',expParam.destDir,soundFiles(kf).name(1:end-4),'Clipped',clippingLevel));
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194 wavwrite(xClean,fs,sprintf('%s%s%s%g.wav',expParam.destDir,soundFiles(kf).name(1:end-4),'Ref',clippingLevel));
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195
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196 fprintf('\n');
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197 clear a xEst1 xEst2 xClipped xClean IClipped
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198 save([expParam.destDir 'clippingExp.mat']);
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199 end
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200 end
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201 end
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202
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203 %% Plot results
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204 averageSNR = squeeze(mean(SNRClip,1));
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205 disp(averageSNR)
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206 figure,
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207 plot(averageSNR)
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208 legend(arrayfun(@(x)x.name,expParam.solvers,'UniformOutput',false));
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209 xlabel('Clipping level')
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210 ylabel('SNR')
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211 return
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