Digital signal processing : world class designs

Digital signal processing world class designs

All the design and development inspiration and direction an digital engineer needs in one blockbuster book! Kenton Williston, author, columnist, and editor of DSP DesignLine has selected the very best digital signal processing design material from the Newnes portfolio and has compiled it into this v...

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Bibliographic Details
Other Authors: Williston, Kenton (-), Gentile, Rick
Format: eBook
Language:Inglés
Published: Amsterdam ; Boston : Newnes/Elsevier c2009.
Series:World class designs.
Subjects:
Signal processing > Digital techniques > Design.
Computer architecture.
See on Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627326006719
Table of Contents:
  • Front Cover; Digital Signal Processing World Class Designs; Copyright Page; Contents; Preface; About the Editor; About the Contributors; Chapter 1: ADCs, DACs, and Sampling Theory; 1.1 Coding and Quantizing; 1.2 Sampling Theory; 1.3 Data Converter AC Errors; 1.4 General Data Converter Specifications; 1.5 Defining the Specifications; References; Bibliography; Chapter 2: Digital Filters; 2.1 Chapter Preview; 2.2 Analog Signal Processing; 2.3 An Alternative Approach; 2.4 The Complete DSP System; 2.5 Recap; 2.6 Digital Data Processing; 2.7 The Running Average Filter
  • 2.8 Representation of Processing Systems2.9 Feedback (or Recursive) Filters; 2.10 Chapter Summary; Bibliography; Chapter 3: Frequency Domain Processing; 3.1 Discrete Fourier Transform (DFT) and Fast Fourier Transform (FFT); 3.2 Short-Time Fourier Transform (STFT); 3.3 Discrete Wavelet Transform (DWT); 3.4 Signal Processing Toolset; References; Chapter 4: Audio Coding; 4.1 Overview; 4.2 Introduction; 4.3 MPEG Audio Coding; 4.4 MPEG Advanced Audio Coding; 4.5 Dolby AC3 (Dolby Digital); 4.6 Other Standards; 4.7 Summary; Bibliography; Chapter 5: Video Processing; 5.1. Rounding Considerations
  • 5.2. SDTV-HDTV YCbCr Transforms5.3. 4:4:4 to 4:2:2 YCbCr Conversion; 5.4. Display Enhancement; 5.5. Video Mixing and Graphics Overlay; 5.6. Luma and Chroma Keying; 5.7. Video Scaling; 5.8. Scan Rate Conversion; 5.9. Noninterlaced-to-Interlaced Conversion; 5.10. Interlaced-to-Noninterlaced Conversion; 5.11. DCT-Based Compression; 5.12. Fixed Pixel Display Considerations; 5.13. Application Example; Bibliography; Chapter 6: Modulation; 6.1 Radio Carrier; 6.2 Amplitude Modulation; 6.3 Modulation Index; 6.4 Frequency Modulation; 6.5 Modulation Index and Deviation Ratio; 6.6 Sidebands
  • 6.7 Bandwidth6.8 Improvement in Signal-to-Noise Ratio; 6.9 Frequency-Shift Keying; 6.10 Phase Modulation; 6.11 Phase-Shift Keying; 6.12 Minimum-Shift Keying; 6.13 Quadrature Amplitude Modulation; 6.14 Spread Spectrum Techniques; 6.15 Frequency Hopping; 6.16 Direct-Sequence Spread Spectrum; 6.17 Orthogonal Frequency Division Multiplexing; 6.18 Bandwidth and Data Capacity; 6.19 Summary; Chapter 7: DSP Hardware Options; 7.1 DSP Theory for Hardware Designers; 7.2 Theory, Applications, and Implementations; 7.3 DSP Applications; 7.4 DSP Implementations; 7.5 Review of Processors and Systems
  • 7.6 Design Flow7.7 Conclusions; References; Chapter 8: DSP Processors and Fixed-Point Arithmetic; 8.1 Digital Signal Processor Architecture; 8.2 Digital Signal Processor Hardware Units; 8.3 Digital Signal Processors and Manufacturers; 8.4 Fixed-Point and Floating-Point Formats; 8.5 Finite Impulse Response and Infinite Impulse Response Filter Implementations in Fixed-Point Systems; 8.6 Digital Signal Processing Programming Examples; 8.7 Summary; Bibliography; Chapter 9: Code Optimization and Resource Partitioning; 9.1 Introduction; 9.2 Event Generation and Handling; 9.3 Programming Methodology
  • 9.4 Architectural Features for Efficient Programming

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