Nicolas (Technical University of Berlin, Germany) Moreau,
N Moreau
Tools for Signal Compression – Applications to Speech and Audio Coding
Applications to Speech and Audio Coding
Gebonden Engels 2011 9781848212558
Verwachte levertijd ongeveer 16 werkdagen
Samenvatting
This book presents tools and algorithms required to compress/uncompress signals such as speech and music. These algorithms are largely used in mobile phones, DVD players, HDTV sets, etc.
In a first rather theoretical part, this book presents the standard tools used in compression systems: scalar and vector quantization, predictive quantization, transform quantization, entropy coding. In particular we show the consistency between these different tools. The second part explains how these tools are used in the latest speech and audio coders. The third part gives Matlab programs simulating these coders.
Specificaties
ISBN13:9781848212558
Taal:Engels
Bindwijze:gebonden
Aantal pagina's:214
Uitgever:John Wiley & Sons
Serie:ISTE
Lezersrecensies
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Inhoudsopgave
<p>Introduction xi</p>
<p>PART 1. TOOLS FOR SIGNAL COMPRESSION 1</p>
<p>Chapter 1. Scalar Quantization 3</p>
<p>1.1. Introduction 3</p>
<p>1.2. Optimum scalar quantization 4</p>
<p>1.3. Predictive scalar quantization 10</p>
<p>Chapter 2. Vector Quantization 23</p>
<p>2.1. Introduction 23</p>
<p>2.2. Rationale 23</p>
<p>2.3. Optimum codebook generation 26</p>
<p>2.4. Optimum quantizer performance 28</p>
<p>2.5. Using the quantizer 30</p>
<p>2.6. Gain–shape vector quantization 32</p>
<p>Chapter 3. Sub–band Transform Coding 37</p>
<p>3.1. Introduction 37</p>
<p>3.2. Equivalence of filter banks and transforms 38</p>
<p>3.3. Bit allocation 40</p>
<p>3.4. Optimum transform 46</p>
<p>3.5. Performance 48</p>
<p>Chapter 4. Entropy Coding 53</p>
<p>4.1. Introduction 53</p>
<p>4.2. Noiseless coding of discrete, memoryless sources 54</p>
<p>4.3. Noiseless coding of a discrete source with memory 66</p>
<p>4.4. Scalar quantizer with entropy constraint 73</p>
<p>4.5. Capacity of a discrete memoryless channel 79</p>
<p>4.6. Coding a discrete source with a fidelity criterion 83</p>
<p>PART 2. AUDIO SIGNAL APPLICATIONS 89</p>
<p>Chapter 5. Introduction to Audio Signals 91</p>
<p>5.1. Speech signal characteristics 91</p>
<p>5.2. Characteristics of music signals 92</p>
<p>5.3. Standards and recommendations 93</p>
<p>Chapter 6. Speech Coding 101</p>
<p>6.1. PCM and ADPCM coders 101</p>
<p>6.2. The 2.4 bit/s LPC–10 coder 102</p>
<p>6.3. The CELP coder 107</p>
<p>Chapter 7. Audio Coding 123</p>
<p>7.1. Principles of perceptual coders 123</p>
<p>7.2. MPEG–1layer 1 coder 126</p>
<p>7.3. MPEG–2AACcoder 130</p>
<p>7.4. DolbyAC–3 coder 134</p>
<p>7.5. Psychoacoustic model: calculating a masking threshold 135</p>
<p>Chapter 8. Audio Coding: Additional Information 141</p>
<p>8.1. Low bit rate/acceptable quality coders 141</p>
<p>8.2. High bit rate lossless or almost lossless coders 146</p>
<p>Chapter 9. Stereo Coding: A Synthetic Presentation 149</p>
<p>9.1. Basic hypothesis and notation 149</p>
<p>9.2. Determining the inter–channel indices 151</p>
<p>9.3. Downmixing procedure 154</p>
<p>9.4. At the receiver 158</p>
<p>9.5. Draft International Standard 161</p>
<p>PART 3. MATLAB— PROGRAMS 163</p>
<p>Chapter 10. A Speech Coder 165</p>
<p>10.1. Introduction 165</p>
<p>10.2. Script for the calling function 165</p>
<p>10.3. Script for called functions 170</p>
<p>Chapter 11. A Music Coder 173</p>
<p>11.1. Introduction 173</p>
<p>11.2. Script for the calling function 173</p>
<p>11.3. Script for called functions 176</p>
<p>Bibliography 195</p>
<p>Index 199</p>
<p>PART 1. TOOLS FOR SIGNAL COMPRESSION 1</p>
<p>Chapter 1. Scalar Quantization 3</p>
<p>1.1. Introduction 3</p>
<p>1.2. Optimum scalar quantization 4</p>
<p>1.3. Predictive scalar quantization 10</p>
<p>Chapter 2. Vector Quantization 23</p>
<p>2.1. Introduction 23</p>
<p>2.2. Rationale 23</p>
<p>2.3. Optimum codebook generation 26</p>
<p>2.4. Optimum quantizer performance 28</p>
<p>2.5. Using the quantizer 30</p>
<p>2.6. Gain–shape vector quantization 32</p>
<p>Chapter 3. Sub–band Transform Coding 37</p>
<p>3.1. Introduction 37</p>
<p>3.2. Equivalence of filter banks and transforms 38</p>
<p>3.3. Bit allocation 40</p>
<p>3.4. Optimum transform 46</p>
<p>3.5. Performance 48</p>
<p>Chapter 4. Entropy Coding 53</p>
<p>4.1. Introduction 53</p>
<p>4.2. Noiseless coding of discrete, memoryless sources 54</p>
<p>4.3. Noiseless coding of a discrete source with memory 66</p>
<p>4.4. Scalar quantizer with entropy constraint 73</p>
<p>4.5. Capacity of a discrete memoryless channel 79</p>
<p>4.6. Coding a discrete source with a fidelity criterion 83</p>
<p>PART 2. AUDIO SIGNAL APPLICATIONS 89</p>
<p>Chapter 5. Introduction to Audio Signals 91</p>
<p>5.1. Speech signal characteristics 91</p>
<p>5.2. Characteristics of music signals 92</p>
<p>5.3. Standards and recommendations 93</p>
<p>Chapter 6. Speech Coding 101</p>
<p>6.1. PCM and ADPCM coders 101</p>
<p>6.2. The 2.4 bit/s LPC–10 coder 102</p>
<p>6.3. The CELP coder 107</p>
<p>Chapter 7. Audio Coding 123</p>
<p>7.1. Principles of perceptual coders 123</p>
<p>7.2. MPEG–1layer 1 coder 126</p>
<p>7.3. MPEG–2AACcoder 130</p>
<p>7.4. DolbyAC–3 coder 134</p>
<p>7.5. Psychoacoustic model: calculating a masking threshold 135</p>
<p>Chapter 8. Audio Coding: Additional Information 141</p>
<p>8.1. Low bit rate/acceptable quality coders 141</p>
<p>8.2. High bit rate lossless or almost lossless coders 146</p>
<p>Chapter 9. Stereo Coding: A Synthetic Presentation 149</p>
<p>9.1. Basic hypothesis and notation 149</p>
<p>9.2. Determining the inter–channel indices 151</p>
<p>9.3. Downmixing procedure 154</p>
<p>9.4. At the receiver 158</p>
<p>9.5. Draft International Standard 161</p>
<p>PART 3. MATLAB— PROGRAMS 163</p>
<p>Chapter 10. A Speech Coder 165</p>
<p>10.1. Introduction 165</p>
<p>10.2. Script for the calling function 165</p>
<p>10.3. Script for called functions 170</p>
<p>Chapter 11. A Music Coder 173</p>
<p>11.1. Introduction 173</p>
<p>11.2. Script for the calling function 173</p>
<p>11.3. Script for called functions 176</p>
<p>Bibliography 195</p>
<p>Index 199</p>
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