Digital Signal Processing 101 : Everything You Need to Know to Get Started /

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Digital Signal Processing 101: Everything You Need to Know to Get Started provides a basic tutorial on digital signal processing (DSP). Beginning with discussions of numerical representation and complex numbers and exponentials, it goes on to explain difficult concepts such as sampling, aliasing, im...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Parker, Michael, 1963- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford, United Kingdom : Newnes is an imprint of Elsevier, [2017]
Edición:Second edition.
Temas:
Signal processing > Digital techniques.
Traitement du signal > Techniques numériques.
TECHNOLOGY & ENGINEERING > Mechanical.
Signal processing > Digital techniques
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Front Cover; Digital Signal Processing; Copyright Page; Table of Contents; Introduction; Acknowledgments; Chapter 1: Numerical Representation; 1.1. Integer Fixed-Point Representation; 1.2. Fractional Fixed-Point Representation; 1.3. Floating-Point Representation; Chapter 2: Complex Numbers and Exponentials; 2.1. Complex Addition and Subtraction; 2.2. Complex Multiplication; 2.3. Complex Conjugate; 2.4. The Complex Exponential; 2.5. Measuring Angles in Radians; Chapter 3: Sampling, Aliasing, and Quantization; 3.1. Nyquist Sampling Rule; 3.2. Quantization; Chapter 4: Frequency Response.
  • 4.1. Frequency Response and the Complex Exponential4.2. Normalizing Frequency Response; 4.3. Sweeping across the Frequency Response; 4.4. Example Frequency Responses; 4.5. Linear Phase Response; 4.6. Normalized Frequency Response Plots; Chapter 5: Finite Impulse Response (FIR) Filters; 5.1. FIR Filter Construction; 5.2. Computing Frequency Response; 5.3. Computing Filter Coefficients; 5.4. Effect of Number of Taps on Filter Response; Chapter 6: Windowing; 6.1. Truncation of Coefficients; 6.2. Tapering of Coefficients; 6.3. Example Coefficient Windows; Chapter 7: Decimation and Interpolation.
  • 7.1. Decimation7.2. Interpolation; 7.3. Resampling by Non-Integer Value; Chapter 8: Infinite Impulse Response (IIR) Filters; 8.1. IIR and FIR Filter Characteristic Comparison; 8.2. Bilinear Transform; 8.3. Frequency Prewarping; Chapter 9: Complex Modulation and Demodulation; 9.1. Modulation Constellations; 9.2. Modulated Signal Bandwidth; 9.3. Pulse-Shaping Filter; 9.4. Raised Cosine Filter; Chapter 10: Discrete and Fast Fourier Transforms (DFT, FFT); 10.1. DFT and IDFT Equations; 10.2. Fast Fourier Transform (FFT); 10.3. Filtering Using the FFT and IFFT; 10.4. Bit Growth in FFTs.
  • 10.5. Bit-Reversal AddressingChapter 11: Digital Upconversion and Downconversion; 11.1. Digital Upconversion; 11.2. Digital Downconversion; 11.3. IF Subsampling; Chapter 12: Error Correction Coding; 12.1. Linear Block Encoding; 12.2. Linear Block Decoding; 12.3. Minimum Coding Distance; 12.4. Convolutional Encoding; 12.5. Viterbi Decoding; 12.6. Soft Decision Decoding; 12.7. Cyclic Redundancy Check; 12.8. Shannon Capacity and Limit Theorems; Chapter 13: Analog and TDMA Wireless Communications; 13.1. Early Digital Innovations; 13.2. Frequency Modulation; 13.3. Digital Signal Processor.
  • 13.4. Digital Voice Phone Systems13.5. TDMA Modulation and Demodulation; Chapter 14: CDMA Wireless Communications; 14.1. Spread Spectrum Technology; 14.2. Direct Sequence Spread Spectrum; 14.3. Walsh Codes; 14.4. Concept of CDMA; 14.5. Walsh Code Demodulation; 14.6. Network Synchronization; 14.7. RAKE Receiver; 14.8. Pilot PN Codes; 14.9. CDMA Transmit Architecture; 14.10. Variable Rate Vocoder; 14.11. Soft Handoff; 14.12. Uplink Modulation; 14.13. Power Control; 14.14. Higher Data Rates; 14.15. Spectral Efficiency Considerations; 14.16. Other CDMA Technologies.

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