Description

Book Synopsis
Bandwidth-Efficient Digital Modulation with Application to Deep-Space Communications defines, describes, and then gives the performance (power and bandwidth) of digital communication systems that incorporate a large variety of the bandwidth-efficient modulations.

Table of Contents
Foreword.

Preface.

Chapter 1: Introduction.

Chapter 2: Constant Envelope Modulations.

2.1 The Need for Constant Envelope.

2.2 Quadriphase-Shift-Keying and Offset (Staggered) Quadriphase-Shift-Keying.

2.3 Differentially Encoded QPSK and Offset (Staggered) QPSK.

2.4 /4-QPSK: A Variation of Differentially Encoded QPSK with Instantaneous Amplitude Fluctuation Halfway between That of QPSK and OQPSK.

2.5 Power Spectral Density Considerations.

2.6 Ideal Receiver Performance.

2.7 Performance in the Presence of Nonideal Transmitters.

2.7.1 Modulator Imbalance and Amplifier Nonlinearity.

2.7.2 Data Imbalance.

2.8 Continuous Phase Modulation.

2.8.1 Full Response-MSK and SFSK.

2.8.2 Partial Response-Gaussian MSK.

2.9 Simulation Performance.

References.

Chapter 3: Quasi-Constant Envelope Modulations.

3.1 Brief Review of IJF-QPSK and SQORC and their Relation to FQPSK.

3.2 A Symbol-by-Symbol Cross-Correlator Mapping for FQPSK.

3.3 Enhanced FQPSK.

3.4 Interpretation of FQPSK as a Trellis-Coded Modulation.

3.5 Optimum Detection.

3.6 Suboptimum Detection.

3.6.1 Symbol-by-Symbol Detection.

3.6.2 Average Bit-Error Probability Performance.

3.6.3 Further Receiver Simplifications and FQPSK-B Performance.

3.7 Cross-Correlated Trellis-Coded Quadrature Modulation.

3.7.1 Description of the Transmitter.

3.7.2 Specific Embodiments.

3.8 Other Techniques.

3.8.1 Shaped Offset QPSK.

References.

Chapter 4: Bandwidth-Efficient Modulations with More Envelope Fluctuation.

4.1 Bandwidth-Efficient TCM with Prescribed Decoding Delay-Equal Signal Energie.

4.1.1 ISI-Based Transmitter Implementation.

4.1.2 Evaluation of the Power Spectral Density.

4.1.3 Optimizing the Bandwidth Efficiency.

4.2 Bandwidth-Efficient TCM with Prescribed Decoding Delay-Unequal Signal Energies.

References.

Chapter 5: Strictly Bandlimited Modulations with Large Envelope Fluctuation (Nyquist Signaling).

5.1 Binary Nyquist Signaling.

5.2 Multilevel and Quadrature Nyquist Signaling.

References.

Chapter 6: Summary.

6.1 Throughput Performance Comparisons.

References.

BandwidthEfficient 2 JPL DeepSpace Communications

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    A Hardback by Marvin K. Simon, Joseph H. Yuen

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      View other formats and editions of BandwidthEfficient 2 JPL DeepSpace Communications by Marvin K. Simon

      Publisher: John Wiley & Sons Inc
      Publication Date: 25/02/2003
      ISBN13: 9780471445364, 978-0471445364
      ISBN10: 0471445363
      Also in:
      Electronics and communications engineering

      Description

      Book Synopsis
      Bandwidth-Efficient Digital Modulation with Application to Deep-Space Communications defines, describes, and then gives the performance (power and bandwidth) of digital communication systems that incorporate a large variety of the bandwidth-efficient modulations.

      Table of Contents
      Foreword.

      Preface.

      Chapter 1: Introduction.

      Chapter 2: Constant Envelope Modulations.

      2.1 The Need for Constant Envelope.

      2.2 Quadriphase-Shift-Keying and Offset (Staggered) Quadriphase-Shift-Keying.

      2.3 Differentially Encoded QPSK and Offset (Staggered) QPSK.

      2.4 /4-QPSK: A Variation of Differentially Encoded QPSK with Instantaneous Amplitude Fluctuation Halfway between That of QPSK and OQPSK.

      2.5 Power Spectral Density Considerations.

      2.6 Ideal Receiver Performance.

      2.7 Performance in the Presence of Nonideal Transmitters.

      2.7.1 Modulator Imbalance and Amplifier Nonlinearity.

      2.7.2 Data Imbalance.

      2.8 Continuous Phase Modulation.

      2.8.1 Full Response-MSK and SFSK.

      2.8.2 Partial Response-Gaussian MSK.

      2.9 Simulation Performance.

      References.

      Chapter 3: Quasi-Constant Envelope Modulations.

      3.1 Brief Review of IJF-QPSK and SQORC and their Relation to FQPSK.

      3.2 A Symbol-by-Symbol Cross-Correlator Mapping for FQPSK.

      3.3 Enhanced FQPSK.

      3.4 Interpretation of FQPSK as a Trellis-Coded Modulation.

      3.5 Optimum Detection.

      3.6 Suboptimum Detection.

      3.6.1 Symbol-by-Symbol Detection.

      3.6.2 Average Bit-Error Probability Performance.

      3.6.3 Further Receiver Simplifications and FQPSK-B Performance.

      3.7 Cross-Correlated Trellis-Coded Quadrature Modulation.

      3.7.1 Description of the Transmitter.

      3.7.2 Specific Embodiments.

      3.8 Other Techniques.

      3.8.1 Shaped Offset QPSK.

      References.

      Chapter 4: Bandwidth-Efficient Modulations with More Envelope Fluctuation.

      4.1 Bandwidth-Efficient TCM with Prescribed Decoding Delay-Equal Signal Energie.

      4.1.1 ISI-Based Transmitter Implementation.

      4.1.2 Evaluation of the Power Spectral Density.

      4.1.3 Optimizing the Bandwidth Efficiency.

      4.2 Bandwidth-Efficient TCM with Prescribed Decoding Delay-Unequal Signal Energies.

      References.

      Chapter 5: Strictly Bandlimited Modulations with Large Envelope Fluctuation (Nyquist Signaling).

      5.1 Binary Nyquist Signaling.

      5.2 Multilevel and Quadrature Nyquist Signaling.

      References.

      Chapter 6: Summary.

      6.1 Throughput Performance Comparisons.

      References.

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