O'Reilly logo

Stay ahead with the world's most comprehensive technology and business learning platform.

With Safari, you learn the way you learn best. Get unlimited access to videos, live online training, learning paths, books, tutorials, and more.

Start Free Trial

No credit card required

Introduction to Digital Mobile Communication, 2nd Edition

Book Description

Introduces digital mobile communications with an emphasis on digital transmission methods

This book presents mathematical analyses of signals, mobile radio channels, and digital modulation methods. The new edition covers the evolution of wireless communications technologies and systems. The major new topics are OFDM (orthogonal frequency domain multiplexing), MIMO (multi-input multi-output) systems, frequency-domain equalization, the turbo codes, LDPC (low density parity check code), ACELP (algebraic code excited linear predictive) voice coding, dynamic scheduling for wireless packet data transmission and nonlinearity compensating digital pre-distorter amplifiers. The new systems using the above mentioned technologies include the second generation evolution systems, the third generation systems with their evolution systems, LTE and LTE-advanced systems, and advanced wireless local area network systems.

The second edition of Digital Mobile Communication:

  • Presents basic concepts and applications to a variety of mobile communication systems

  • Discusses current applications of modern digital mobile communication systems

  • Covers the evolution of wireless communications technologies and systems in conjunction with their background

  • The second edition of Digital Mobile Communication is an important textbook for university students, researchers, and engineers involved in wireless communications.

    Table of Contents

    1. COVER
    2. TITLE PAGE
    3. PREFACE TO THE SECOND EDITION
    4. PREFACE TO THE FIRST EDITION
      1. ACKNOWLEDGMENTS
    5. 1 INTRODUCTION
      1. 1.1 DIGITAL MOBILE RADIO COMMUNICATION SYSTEM
      2. 1.2 THE PURPOSE OF DIGITIZATION OF MOBILE RADIO COMMUNICATIONS
    6. 2 SIGNAL AND SYSTEMS
      1. 2.1 SIGNAL ANALYSIS
      2. 2.2 NOISE ANALYSIS
      3. 2.3 LINEAR SYSTEM
      4. 2.4 DISCRETE-TIME SYSTEM
      5. 2.5 OPTIMIZATION AND ADAPTIVE SIGNAL PROCESSING
      6. APPENDIX 2.A
      7. APPENDIX 2.B CONDITIONS FOR A TEST FUNCTION FOR THE DELTA FUNCTION,
      8. APPENDIX 2.C FORMULAE FOR THE TRIGONOMETRIC FUNCTIONS
      9. REFERENCES
    7. 3 THE ELEMENTS OF DIGITAL COMMUNICATION SYSTEM
      1. 3.1 PULSE SHAPING
      2. 3.2 LINE CODING
      3. 3.3 SIGNAL DETECTION
      4. 3.4 SYNCHRONIZATION
      5. 3.5 SCRAMBLING
      6. 3.6 PUBLIC KEY CRYPTOSYSTEM
      7. 3.7 MULTIPLEXING AND MULTIPLE ACCESS
      8. 3.8 THE CHANNEL CAPACITY
      9. APPENDIX 3.A FERMAT’S THEOREM AND THE CHINESE REMAINDER THEOREM
      10. REFERENCES
    8. 4 MOBILE RADIO CHANNELS
      1. 4.1 PATH LOSS
      2. 4.2 SHADOWING
      3. 4.3 FAST FADING
      4. 4.4 DELAY SPREAD AND FREQUENCY-SELECTIVE FADING
      5. 4.5 THE NEAR–FAR PROBLEM
      6. 4.6 COCHANNEL INTERFERENCE
      7. 4.7 RECEIVE POWER DISTRIBUTION AND RADIO CHANNEL DESIGN
      8. APPENDIX 4.A PROPAGATION LOSS FORMULA
      9. APPENDIX 4.B INTERFERENCE PROBABILITY UNDER SHADOWING
      10. APPENDIX 4.C INTERFERENCE PROBABILITY UNDER COMBINED FADING AND SHADOWING
      11. REFERENCES
    9. 5 ELEMENTS OF DIGITAL MODULATION
      1. 5.1 DIGITALLY MODULATED SIGNALS
      2. 5.2 LINEAR MODULATION VERSUS CONSTANT ENVELOPE MODULATION
      3. 5.3 DIGITAL MODULATIONS
      4. 5.4 POWER SPECTRAL DENSITY OF DIGITALLY MODULATED SIGNALS
      5. 5.5 DEMODULATION
      6. 5.6 COMPUTER SIMULATION OF TRANSMISSION SYSTEMS
      7. APPENDIX 5.A DISTORTION OF MODULATED SIGNAL APPLIED TO A NONLINEAR CIRCUIT
      8. APPENDIX 5.B DERIVATION OF THE EXPECTED GAUSSIAN NOISE POWER FOR FREQUENCY DISCRIMINATOR
      9. APPENDIX 5.C M-SEQUENCE GENERATOR
      10. REFERENCES
    10. 6 DIGITAL MODULATION/DEMODULATION FOR MOBILE RADIO COMMUNICATION
      1. 6.1 DIGITAL MODULATION FOR ANALOG FM MOBILE RADIO SYSTEMS
      2. 6.2 CONSTANT ENVELOPE MODULATION
      3. 6.3 LINEAR MODULATION
      4. 6.4 SPREAD-SPECTRUM SYSTEM
      5. 6.5 MULTICARRIER TRANSMISSION
      6. 6.6 SINGLE-CARRIER FREQUENCY-DIVISION MODULATION
      7. APPENDIX 6.A MATHEMATICAL PRINCIPLE OF ORTHOGONAL FREQUENCY-DIVISION MULTIPLEXING
      8. REFERENCES
    11. 7 OTHER TOPICS IN DIGITAL MOBILE RADIO TRANSMISSION
      1. 7.1 DIVERSITY TRANSMISSION SYSTEM
      2. 7.2 MULTI-INPUT MULTI-OUTPUT SYSTEMS
      3. 7.3 ADAPTIVE AUTOMATIC EQUALIZER
      4. 7.4 ERROR CONTROL TECHNIQUES
      5. 7.5 TRELLIS-CODED MODULATION
      6. 7.6 ADAPTIVE INTERFERENCE CANCELLATION
      7. 7.7 VOICE CODING
      8. APPENDIX 7.A AVERAGE ERROR RATE FOR MAXIMAL RATIO COMBINER WITH COHERENT DETECTOR
      9. APPENDIX 7.B AVERAGE ERROR RATE OF MAXIMAL RATIO COMBINING SYSTEM WITH COHERENT DETECTOR WITH USE OF APPROXIMATE PROBABILITY DENSITY FUNCTION
      10. REFERENCES
    12. 8 EQUIPMENT AND CIRCUITS FOR DIGITAL MOBILE RADIO
      1. 8.1 BASE STATION
      2. 8.2 MOBILE STATION
      3. 8.3 SUPERHETERODYNE AND DIRECT CONVERSION RECEIVERS
      4. 8.4 TRANSMIT AND RECEIVE DUPLEXING
      5. 8.5 FREQUENCY SYNTHESIZER
      6. 8.6 TRANSMITTER CIRCUITS
      7. 8.7 RECEIVER CIRCUITS
      8. 8.8 COUNTERMEASURES AGAINST DC BLOCKING AND DC OFFSET
      9. APPENDIX 8.A QUARTER-WAVELENGTH LINE
      10. REFERENCES
    13. 9 DIGITAL MOBILE RADIO COMMUNICATION SYSTEMS
      1. 9.1 FUNDAMENTAL CONCEPTS
      2. 9.2 DIGITAL TRANSMISSION IN ANALOG MOBILE COMMUNICATION SYSTEMS
      3. 9.3 PAGING SYSTEMS
      4. 9.4 TWO-WAY DIGITAL MOBILE RADIO
      5. 9.5 MOBILE DATA SERVICE SYSTEMS
      6. 9.6 DIGITAL CORDLESS TELEPHONE
      7. 9.7 DIGITAL MOBILE TELEPHONE SYSTEMS
      8. 9.8 WIRELESS LOCAL AREA NETWORK
      9. APPENDIX 9.A POISSON ARRIVAL RATES
      10. REFERENCES
    14. INDEX
    15. END USER LICENSE AGREEMENT