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1 {
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2 "cells": [
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3 {
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4 "cell_type": "code",
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5 "execution_count": 1,
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6 "metadata": {
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7 "collapsed": true
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8 },
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9 "outputs": [],
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10 "source": [
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11 "import numpy as np\n",
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12 "import pickle"
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13 ]
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14 },
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15 {
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16 "cell_type": "code",
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17 "execution_count": 2,
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18 "metadata": {
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19 "collapsed": true
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20 },
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21 "outputs": [],
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22 "source": [
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23 "filenames = ['/import/c4dm-04/mariap/train_data_melodia_8.pickle',\n",
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24 " '/import/c4dm-04/mariap/val_data_melodia_8.pickle', \n",
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25 " '/import/c4dm-04/mariap/test_data_melodia_8.pickle']"
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26 ]
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27 },
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28 {
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29 "cell_type": "code",
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30 "execution_count": 13,
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31 "metadata": {
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32 "collapsed": true
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33 },
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34 "outputs": [],
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35 "source": [
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m@6
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36 "all_Yaudio = []\n",
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m@7
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37 "all_Y = []\n",
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m@6
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38 "for filename in filenames:\n",
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m@7
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39 " _, Y, Yaudio = pickle.load(open(filename, 'rb'))\n",
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m@6
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40 " all_Yaudio.append(Yaudio)\n",
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m@7
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41 " all_Y.append(Y)\n",
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m@7
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42 "all_Yaudio = np.concatenate(all_Yaudio)\n",
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m@7
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43 "all_Y = np.concatenate(all_Y)"
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44 ]
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45 },
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46 {
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47 "cell_type": "code",
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48 "execution_count": 5,
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49 "metadata": {
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50 "collapsed": true
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51 },
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52 "outputs": [],
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53 "source": [
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m@6
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54 "uniq_audio, uniq_counts = np.unique(all_Yaudio, return_counts=True)"
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55 ]
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56 },
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57 {
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58 "cell_type": "markdown",
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59 "metadata": {},
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60 "source": [
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61 "## Stats on audio files with very few music frames (after the speech/music discrimination)"
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62 ]
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63 },
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64 {
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65 "cell_type": "code",
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66 "execution_count": 8,
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67 "metadata": {
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68 "collapsed": false
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69 },
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70 "outputs": [
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71 {
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72 "name": "stdout",
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73 "output_type": "stream",
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74 "text": [
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75 "63 files out of 8200 have less than 10 frames\n"
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76 ]
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77 }
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78 ],
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79 "source": [
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80 "min_n_frames = 10\n",
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81 "short_files_idx = np.where(uniq_counts<min_n_frames)[0]\n",
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82 "print '%d files out of %d have less than %d frames' % (len(short_files_idx), len(uniq_counts), min_n_frames)"
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83 ]
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84 },
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85 {
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86 "cell_type": "markdown",
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87 "metadata": {},
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88 "source": [
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89 "Countries for tracks with less than 10 frames"
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90 ]
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91 },
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92 {
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93 "cell_type": "code",
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94 "execution_count": 17,
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95 "metadata": {
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96 "collapsed": false
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97 },
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98 "outputs": [
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99 {
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100 "name": "stdout",
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101 "output_type": "stream",
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102 "text": [
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103 "{'Italy': 1, 'Peru': 1, 'Solomon Islands': 2, 'France': 2, 'Ethiopia': 1, 'Somalia': 1, 'Ireland': 1, 'Swaziland': 1, 'Argentina': 1, 'Norway': 1, 'Nigeria': 1, 'Algeria': 1, 'Germany': 1, 'Puerto Rico': 1, 'Dominican Republic': 1, 'Poland': 3, 'Spain': 2, 'Netherlands': 1, 'Uganda': 4, 'Western Sahara': 5, 'Gambia': 2, 'Philippines': 2, 'Trinidad and Tobago': 1, 'Latvia': 1, 'South Sudan': 3, 'Mali': 1, 'Russia': 1, 'Romania': 1, 'Portugal': 1, 'South Africa': 3, 'Egypt': 1, 'Sierra Leone': 1, 'United Kingdom': 4, 'Lesotho': 1, 'Senegal': 2, 'Colombia': 2, 'Japan': 2, 'Nicaragua': 1, 'Botswana': 1}\n"
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104 ]
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105 }
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106 ],
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107 "source": [
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108 "countries = np.array([all_Y[np.where(all_Yaudio==uniq_audio[audio_idx])[0][0]][0] for audio_idx in short_files_idx])\n",
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109 "unique, counts = np.unique(countries, return_counts=True)\n",
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110 "print dict(zip(unique, counts))"
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111 ]
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112 },
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113 {
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114 "cell_type": "markdown",
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115 "metadata": {},
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116 "source": [
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m@6
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117 "## Stats on average duration of the music segments for all tracks"
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118 ]
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119 },
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120 {
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121 "cell_type": "code",
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122 "execution_count": 18,
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123 "metadata": {
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124 "collapsed": false
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125 },
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126 "outputs": [
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127 {
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128 "name": "stdout",
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129 "output_type": "stream",
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130 "text": [
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131 "mean 65.750000\n",
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132 "median 44.000000\n",
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133 "std 45.947865\n",
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134 "mean duration 32.875000\n"
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135 ]
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136 }
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137 ],
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138 "source": [
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139 "sr = 2.0 # with 8-second window and 0.5-second hop size the sampling rate is 2 about 2 samples per second\n",
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m@6
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140 "print 'mean %f' % np.mean(uniq_counts)\n",
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m@6
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141 "print 'median %f' % np.median(uniq_counts)\n",
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m@6
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142 "print 'std %f' % np.std(uniq_counts)\n",
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143 "print 'mean duration %f' % (np.mean(uniq_counts) / sr)"
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144 ]
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145 },
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146 {
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147 "cell_type": "markdown",
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148 "metadata": {},
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149 "source": [
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m@7
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150 "## Stats on average duration of the music segments for the Smithsonian tracks"
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151 ]
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152 },
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153 {
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154 "cell_type": "code",
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155 "execution_count": 23,
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156 "metadata": {
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157 "collapsed": false
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158 },
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159 "outputs": [
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160 {
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161 "name": "stdout",
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162 "output_type": "stream",
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163 "text": [
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164 "n tracks: 6132\n",
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165 "mean 42.618885\n",
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166 "median 44.000000\n",
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167 "std 4.804534\n",
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168 "mean duration 21.309442\n"
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169 ]
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170 }
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171 ],
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172 "source": [
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173 "#British library tracks start with 'D:/Audio/...'\n",
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174 "idx_SM_tracks = np.array([i for i in range(len(uniq_audio)) if len(uniq_audio[i].split('D:/'))==1])\n",
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175 "sr = 2.0 # with 8-second window and 0.5-second hop size the sampling rate is 2 about 2 samples per second\n",
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176 "print 'n tracks: %d' % len(idx_SM_tracks)\n",
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177 "print 'mean %f' % np.mean(uniq_counts[idx_SM_tracks])\n",
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178 "print 'median %f' % np.median(uniq_counts[idx_SM_tracks])\n",
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179 "print 'std %f' % np.std(uniq_counts[idx_SM_tracks])\n",
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180 "print 'mean duration %f' % (np.mean(uniq_counts[idx_SM_tracks]) / sr)"
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181 ]
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182 },
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183 {
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184 "cell_type": "markdown",
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185 "metadata": {},
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186 "source": [
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m@6
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187 "## Stats on average duration of the music segments for the British Library tracks"
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188 ]
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189 },
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190 {
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191 "cell_type": "code",
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192 "execution_count": 22,
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193 "metadata": {
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194 "collapsed": false
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195 },
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196 "outputs": [
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197 {
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198 "name": "stdout",
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199 "output_type": "stream",
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200 "text": [
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201 "n tracks: 2068\n",
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202 "mean 134.338008\n",
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203 "median 163.000000\n",
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204 "std 44.855790\n",
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205 "mean duration 67.169004\n"
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206 ]
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207 }
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208 ],
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209 "source": [
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210 "#British library tracks start with 'D:/Audio/...'\n",
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211 "idx_BL_tracks = np.array([i for i in range(len(uniq_audio)) if len(uniq_audio[i].split('D:/'))>1])\n",
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212 "sr = 2.0 # with 8-second window and 0.5-second hop size the sampling rate is 2 about 2 samples per second\n",
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213 "print 'n tracks: %d' % len(idx_BL_tracks)\n",
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214 "print 'mean %f' % np.mean(uniq_counts[idx_BL_tracks])\n",
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215 "print 'median %f' % np.median(uniq_counts[idx_BL_tracks])\n",
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216 "print 'std %f' % np.std(uniq_counts[idx_BL_tracks])\n",
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217 "print 'mean duration %f' % (np.mean(uniq_counts[idx_BL_tracks]) / sr)"
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218 ]
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219 },
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220 {
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221 "cell_type": "code",
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222 "execution_count": null,
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223 "metadata": {
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224 "collapsed": true
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225 },
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226 "outputs": [],
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227 "source": []
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228 }
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229 ],
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230 "metadata": {
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231 "kernelspec": {
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232 "display_name": "Python 2",
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233 "language": "python",
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234 "name": "python2"
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235 },
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236 "language_info": {
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237 "codemirror_mode": {
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238 "name": "ipython",
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239 "version": 2
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240 },
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241 "file_extension": ".py",
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242 "mimetype": "text/x-python",
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243 "name": "python",
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244 "nbconvert_exporter": "python",
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245 "pygments_lexer": "ipython2",
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246 "version": "2.7.11"
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247 }
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248 },
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249 "nbformat": 4,
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250 "nbformat_minor": 1
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251 }
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