Acoustic Signal Processing for Telecommunication Steven L. Gay

Acoustic Signal Processing for Telecommunication By Steven L. Gay

Summary

4 Magnitude Subtraction 162 3. 2 Single-Pole Recursion 170 4. 3 Two-Sided Single-Pole Recursion 4. 4 Nonlinear Data Processing 171 5. 1 Maximum Gain for Omnidirectional Microphones 193 4. 2 Maximum Directivity Index for Differential Microphones 195 4. 3 Maximimum Front-to-Back Ratio 197 4. 4 Minimum Peak Directional Response 200 4.

Acoustic Signal Processing for Telecommunication by Steven L. Gay

158 2. Wiener Filtering 159 3. Speech Enhancement by Short-Time Spectral Modification 3. 1 Short-Time Fourier Analysis and Synthesis 159 160 3. 2 Short-Time Wiener Filter 161 3. 3 Power Subtraction 3. 4 Magnitude Subtraction 162 3. 5 Parametric Wiener Filtering 163 164 3. 6 Review and Discussion Averaging Techniques for Envelope Estimation 169 4. 169 4. 1 Moving Average 170 4. 2 Single-Pole Recursion 170 4. 3 Two-Sided Single-Pole Recursion 4. 4 Nonlinear Data Processing 171 5. Example Implementation 172 5. 1 Subband Filter Bank Architecture 172 173 5. 2 A-Posteriori-SNR Voice Activity Detector 5. 3 Example 175 6. Conclusion 175 Part IV Microphone Arrays 10 Superdirectional Microphone Arrays 181 Gary W. Elko 1. Introduction 181 2. Differential Microphone Arrays 182 3. Array Directional Gain 192 4. Optimal Arrays for Spherically Isotropic Fields 193 4. 1 Maximum Gain for Omnidirectional Microphones 193 4. 2 Maximum Directivity Index for Differential Microphones 195 4. 3 Maximimum Front-to-Back Ratio 197 4. 4 Minimum Peak Directional Response 200 4. 5 Beamwidth 201 5. Design Examples 201 5. 1 First-Order Designs 202 5. 2 Second-Order Designs 207 5. 3 Third-Order Designs 216 5. 4 Higher-Order designs 221 6. Optimal Arrays for Cylindrically Isotropic Fields 222 6. 1 Maximum Gain for Omnidirectional Microphones 222 6. 2 Optimal Weights for Maximum Directional Gain 224 6. 3 Solution for Optimal Weights for Maximum Front-to-Back Ratio for Cylindrical Noise 225 7. Sensitivity to Microphone Mismatch and Noise 230 8.

List of Figures. List of Tables. Preface. Contributing Authors. 1. An Introduction to Acoustic Echo and Noise Control; S.L. Gay, J. Benesty. Part I: Mono-Channel Acoustic Echo Cancellation. 2. The Fast Affine Projection Algorithm; S.L. Gay. 3. Subband Acoustic Echo Cancellation Using the FAP-RLS Algorithm: Fixed-Point Implementation Issues; M. Ghanassi, B. Champagne. 4. Real-Time Implementation of the Exact Block NLMS Algorithm for Acoustic Echo Control in Hands-Free Telephone Systems; B.H. Nitsch. 5. Double-Talk Detection Schemes for Acoustic Echo Cancellation; T. Gansler, J. Benesty, S.L. Gay. Part II: Multi-Channel Acoustic Echo Cancellation. 6. Multi-Channel Sound, Acoustic Echo Cancellation, and Multi-Channel Time-Domain Adaptive Filtering; J. Benesty, T. Gansler, P. Eneroth. 7. Multi-Channel Frequency-Domain Adaptive Filtering; J. Benesty, D.R. Morgan. 8. A Real-time Stereophonic Acoustic Subband Echo Canceler; P. Eneroth, S.L. Gay, T. Gansler, J. Benesty. Part III: Noise Reduction Techniques with a Single Microphone. 9. Subband Noise Reduction Methods for Speech Enhancement; E.J. Diethorn. Part IV: Microphone Arrays. 10. Superdirectional Microphone Arrays; G.W. Elko. 11. Microphone Arrays for Video Camera Steering; Yiteng Huang, J. Benesty, G.W. Elko. 12. Nonlinear, Model-Based Microphone Array Speech Enhancement; M.S. Brandstein, S.M. Griebel. Part V: Virtual Sound. 13. 3D Audio and Virtual Acoustical Environment Synthesis; Jiashu Chen.14. Virtual Sound Using Loudspeakers: Robust Acoustic Crosstalk Cancellation; D.B. Ward, G.W. Elko. Part VI: Blind Source Separation. 15. An Introduction to Blind Source Separation of Speech Signals; J. Benesty. Index.

Acoustic Signal Processing for Telecommunication Steven L. Gay

Acoustic Signal Processing for Telecommunication by Steven L. Gay

Summary

Acoustic Signal Processing for Telecommunication Summary

Acoustic Signal Processing for Telecommunication by Steven L. Gay

Table of Contents

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