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ivan@136
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1 %% Audio Declipping Example
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2 %
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3 % Audio declipping is a problem proposed in Audio Inpaining Toolbox and
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4 % in [2]. This is an example of solving the problem with fast omp using
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5 % Gabor dictionary and ompGabor implemented in SMALLbox [1].
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6 %
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7 % [1] I. Damnjanovic, M. E. P. Davies, and M. P. Plumbley "SMALLbox - an
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8 % evaluation framework for sparse representations and dictionary
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9 % learning algorithms," V. Vigneron et al. (Eds.): LVA/ICA 2010,
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10 % Springer-Verlag, Berlin, Germany, LNCS 6365, pp. 418-425
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11 % [2] A. Adler, V. Emiya, M. G. Jafari, M. Elad, R. Gribonval, and M. D.
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12 % Plumbley, “Audio Inpainting,” submitted to IEEE Trans. Audio, Speech,
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13 % and Lang. Proc., 2011, http://hal.inria.fr/inria-00577079/en/.
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14
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15 %
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16 % Centre for Digital Music, Queen Mary, University of London.
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17 % This file copyright 2011 Ivan Damnjanovic.
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18 %
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19 % This program is free software; you can redistribute it and/or
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20 % modify it under the terms of the GNU General Public License as
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21 % published by the Free Software Foundation; either version 2 of the
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22 % License, or (at your option) any later version. See the file
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23 % COPYING included with this distribution for more information.
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24 %
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25 %%
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26
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27 clear;
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28 % Defining the solvers to test in Audio declipping scenario
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29
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30 % First solver omp2 - DCT+DST dictionary with no additional constraints
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31
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32 SMALL.solver(1) = SMALL_init_solver('ompbox', 'omp2', '', 0);
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33 SMALL.solver(1).add_constraints = 0;
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34
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35 % Second solver omp2 - DCT+DST dictionary with additional constraints
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36
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37 SMALL.solver(2) = SMALL_init_solver('ompbox', 'omp2', '', 0);
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38 SMALL.solver(2).add_constraints = 1;
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39
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40 % Third solver omp2 - Gabor dictionary with no additional constraints
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41
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42 SMALL.solver(3) = SMALL_init_solver('ompbox', 'omp2Gabor', '', 0);
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43 SMALL.solver(3).add_constraints = 0;
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44
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45 % Fourth solver omp2- Gabor dictionary with no additional constraints
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46
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47 SMALL.solver(4) = SMALL_init_solver('ompbox', 'omp2Gabor', '', 0);
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48 SMALL.solver(4).add_constraints = 1;
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49
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50 % Defining the Problem structure
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51
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52 SMALL.Problem = generateAudioDeclippingProblem('male01_8kHz', 0.1, 256, 0.5, @wRect, @wSine, @wRect, @Gabor_Dictionary, 2);
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53
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54 for idxSolver = 1:4
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55
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56 fprintf('\nStarting Audio Declipping of %s... \n', SMALL.Problem.name);
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57 fprintf('\nClipping level %s... \n', SMALL.Problem.clippingLevel);
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58
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59 start=cputime;
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60 tStart=tic;
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61
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62 error2=0.001^2;
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63 coeffFrames = zeros(SMALL.Problem.p, SMALL.Problem.n);
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64
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65
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66
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67 for i = 1:SMALL.Problem.n
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68
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69 idx = find(SMALL.Problem.M(:,i));
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70 if size(idx,1)==SMALL.Problem.m
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71 continue
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72 end
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73 Dict = SMALL.Problem.B(idx,:);
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74 wDict = 1./sqrt(diag(Dict'*Dict));
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75
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76 SMALL.Problem.A = Dict*diag(wDict);
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77
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78 SMALL.Problem.b1 = SMALL.Problem.b(idx,i);
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79
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80
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81
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82 % set solver parameters
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83
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84 SMALL.solver(idxSolver).param=struct(...
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85 'epsilon', error2*size(idx,1),...
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86 'maxatoms', 128, ...
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87 'profile', 'off');
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88
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89 % Find solution
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90
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91 SMALL.solver(idxSolver)=SMALL_solve(SMALL.Problem, SMALL.solver(idxSolver));
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92
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93 % Refine solution with additional constraints for declipping scenario
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94
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95 if (SMALL.solver(idxSolver).add_constraints)
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96 SMALL.solver(idxSolver)=CVX_add_const_Audio_declipping(...
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97 SMALL.Problem, SMALL.solver(idxSolver), i);
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98 end
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99
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100 %%
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101 coeffFrames(:,i) = wDict .* SMALL.solver(idxSolver).solution;
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102
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103
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104 end
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105
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106 %% Set reconstruction function
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107
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108 SMALL.Problem.reconstruct=@(x) AudioDeclipping_reconstruct(x, SMALL.Problem);
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109 reconstructed=SMALL.Problem.reconstruct(coeffFrames);
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110 SMALL.Problem = rmfield(SMALL.Problem, 'reconstruct');
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111 tElapsed=toc(tStart);
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112
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113 SMALL.solver(idxSolver).time = cputime - start;
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114 fprintf('Solver %s finished task in %2f seconds (cpu time). \n', ...
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115 SMALL.solver(idxSolver).name, SMALL.solver(idxSolver).time);
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116 fprintf('Solver %s finished task in %2f seconds (tic-toc time). \n', ...
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117 SMALL.solver(idxSolver).name, tElapsed);
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118
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119
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120
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121 %% Plot results
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122
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123 xClipped = SMALL.Problem.clipped;
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124 xClean = SMALL.Problem.original;
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125 xEst1 = reconstructed.audioAllSamples;
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126 xEst2 = reconstructed.audioOnlyClipped;
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127 fs = SMALL.Problem.fs;
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128
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129 figure
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130 hold on
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131 plot(xClipped,'r')
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132 plot(xClean)
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133 plot(xEst2,'--g')
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134 plot([1;length(xClipped)],[1;1]*[-1,1]*max(abs(xClipped)),':r')
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135 legend('Clipped','True solution','Estimate')
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136 end
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137
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138 % % Normalized and save sounds
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139 % normX = 1.1*max(abs([xEst1(:);xEst2(:);xClean(:)]));
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140 % L = min([length(xEst2),length(xEst1),length(xClean),length(xEst1),length(xClipped)]);
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141 % xEst1 = xEst1(1:L)/normX;
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142 % xEst2 = xEst2(1:L)/normX;
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143 % xClipped = xClipped(1:L)/normX;
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144 % xClean = xClean(1:L)/normX;
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145 % wavwrite(xEst1,fs,[expParam.destDir 'xEst1.wav']);
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146 % wavwrite(xEst2,fs,[expParam.destDir 'xEst2.wav']);
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147 % wavwrite(xClipped,fs,[expParam.destDir 'xClipped.wav']);
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148 % wavwrite(xClean,fs,[expParam.destDir 'xClean.wav']);
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