Overview

Software Defined Radio: Theory and Practice is a comprehensive resource covering software defined radio (SDR) from theory to practical applications. The book provides foundational knowledge for communication engineers and SDR enthusiasts. It covers digital modulation techniques, from basic to advanced techniques such as SC-OFDM and GMSK. The book then discusses RF channel impairments and strategies for eliminating them along with the use of channel equalization and modern frequency domain equalizers utilized in cellular telephony. Source and channel coding are introduced, and receiver analog design is thoroughly researched, comparing traditional and modern designs. The book includes important review topics such as complex numbers, fixed-point numeric formats, decision theory, Doppler, and more. Software Defined Radio: Theory and Practice offers a well-rounded approach to understanding and applying SDR, combining theoretical knowledge with practical exercises and simulations for a comprehensive learning experience.

Full Product Details

Author:   John Reyland
Publisher:   Artech House Publishers
Imprint:   Artech House Publishers
Edition:   Unabridged edition
Dimensions:   Width: 16.40cm , Height: 3.80cm , Length: 23.50cm
Weight:   1.161kg
ISBN:  

9781685690397

ISBN 10:   1685690394
Pages:   636
Publication Date:   30 November 2023
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

1 Introduction 1.1 Origins of SDR 1.2 Software Communications Architecture 1.3 Radio Hardware Choices for SDR 1.4 DSP Software Development Choices for SDR 1.5 SDR Disadvantages   2 Communication System Fundamentals 2.1 Introduction 2.2 Basic Measurements 2.3 Other Measurements 2.4 Basic Procedures 2.5 Satellite Communications Measurements 2.6 Link Budgets 2.7 Famous Communications Formulas   3 Modulation Types 3.1 Introduction 3.2 Linear 3.3 Non-linear Modulation 3.4 Direct Sequence Waveforms   4 RF Channels 4.1 RF Wave Basics 4.2 RF Propagation   5 Channel Equalizers 5.1 Introduction 5.2 Equalizers using Least Mean Square Adaptation   6 Coding 6.1 Introduction 6.2 Source Coding 6.3 Channel Coding   7 Analog Signal Processing 7.1 Introduction 7.2 Components 7.3 Receiver Configurations 7.4 Transmitter Configurations   8 ADC and DAC Technology 8.1 ADC Sampling Theory 8.2 ADC Specifications 8.3 Digital to Analog Converters   9 Digital Signal Processing 9.1 Fundamental DSP Concepts 9.2 Digital Filter Examples 9.3 Digital Signal Processing Circuits 9.4 Quantizing Noise   10.1 Symbol Tracking 10.2 Carrier Tracking   11 ADSB Digital Signal Processing 11.1 Introduction 11.2 ADLAM-Pluto SDR Hardware 11.3 ADSB Digital Signal Processing 11.4 ADSB Phy Layer Output Details   12 APSK Digital Signal Processing 12.1 APSK Overview 12.2 Modem Overview 12.3 Modem Design Details 12.4 APSK System Testing   13 IEEE802.11a Digital Signal Processing 13.1 IEEE802.11a Overview 13.2 IEEE802.11a Transmitter Overview 13.3 IEEE802.11a Channel Overview 13.4 IEEE802.11a Receiver Overview 13.5 IEEE802.11a Transmitter Design Details 13.6 IEEE802.11a Receiver Design Details 13.7 IEEE802.11a System Testing

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