Prologue / 1: |
Motivation of the Book / 1.1: |
Adaptation Principles / 1.2: |
Channel Quality Metrics / 1.3: |
Transceiver Parameter Adaptation / 1.4: |
Milestones in Adaptive Modulation History / 1.5: |
Outline of the book / 1.6: |
Near-instantaneously Adaptive Modulation and Filtering Based Equalisation / I: |
Introduction To Equalizers / 2: |
Coherent Demodulation of Square-QAM / 2.1: |
Intersymbol Interference / 2.2: |
Basic Equalizer Theory / 2.3: |
Signal to Noise Ratio Loss of the DFE / 2.4: |
Equalization in Multi-level Modems / 2.5: |
Review and Discussion / 2.6: |
Adaptive Equalization / 3: |
Derivation of the Recursive Kalman Algorithm / 3.1: |
Application of the Kalman Algorithm / 3.2: |
Complexity Study / 3.3: |
Adaptive Equalization in Multilevel Modems / 3.4: |
Adaptive Modulation / 3.5: |
Adaptive Modulation for Narrow-band Fading Channels / 4.1: |
Power Control Assisted Adaptive Modulation / 4.2: |
Adaptive Modulation and Equalization in a Wideband Environment / 4.3: |
Turbo-Coded and Turbo-Equalised Adaptive Modulation / 4.4: |
Turbo Coding / 5.1: |
System Parameters / 5.2: |
Turbo Block Coding Performance of the Fixed QAM Modes / 5.3: |
Fixed Coding Rate, Fixed Interleaver Size Turbo Coded AQAM / 5.4: |
Fixed Coding Rate, Variable Interleaver Size Turbo Coded AQAM / 5.5: |
Blind Modulation Detection / 5.6: |
Variable Coding Rate Turbo Block Coded Adaptive Modulation / 5.7: |
Comparisons of the Turbo Block Coded AQAM Schemes / 5.8: |
Turbo Convolutional Coded AQAM Schemes / 5.9: |
Turbo Equalization / 5.10: |
Burst-by-Burst Adaptive Wideband Coded Modulation / 5.11: |
Adaptive Modulation Mode Switching Optimization / 5.12: |
Introduction / 6.1: |
Increasing the Average Transmit Power as a Fading Counter-Measure / 6.2: |
System Description / 6.3: |
Optimum Switching Levels / 6.4: |
Results and Discussions / 6.5: |
Practical Considerations of Wideband AQAM / 6.6: |
Impact of Error Propagation / 7.1: |
Channel Quality Estimation Latency / 7.2: |
Effect of Co-channel Interference on AQAM / 7.3: |
Near-instantaneously Adaptive Modulation and Neural Network Based Equalisation / 7.4: |
Neural Network Based Equalization / 8: |
Discrete Time Model for Channels Exhibiting Intersymbol Interference / 8.1: |
Equalization as a Classification Problem / 8.2: |
Introduction to Neural Networks / 8.3: |
Equalization Using Neural Networks / 8.4: |
Multilayer Perceptron Based Equaliser / 8.5: |
Polynomial Perceptron Based Equaliser / 8.6: |
Radial Basis Function Networks / 8.7: |
K-means Clustering Algorithm / 8.8: |
Radial Basis Function Network Based Equalisers / 8.9: |
Scalar Noise-free Channel Output States / 8.10: |
Decision Feedback Assisted Radial Basis Function Network Equaliser / 8.11: |
Simulation Results / 8.12: |
RBF-Equalized Adaptive Modulation / 8.13: |
Background to Adaptive Modulation in a Narrowband Fading Channel / 9.1: |
Background on Adaptive Modulation in a Wideband Fading Channel / 9.2: |
Brief Overview of Part I of the Book / 9.3: |
Joint Adaptive Modulation and RBF Based Equalization / 9.4: |
Performance of the AQAM RBF DFE Scheme / 9.5: |
RBF Equalization Using Turbo Codes / 9.6: |
Introduction to Turbo Codes / 10.1: |
Jacobian Logarithmic RBF Equalizer / 10.2: |
System Overview / 10.3: |
Turbo-coded RBF-equalized M-QAM Performance / 10.4: |
Channel Quality Measure / 10.5: |
Turbo Coding and RBF Equalizer Assisted AQAM / 10.6: |
RBF Turbo Equalization / 10.7: |
Introduction to Turbo equalization / 11.1: |
RBF Assisted Turbo equalization / 11.2: |
Comparison of the RBF and MAP Equaliser / 11.3: |
Comparison of the Jacobian RBF and Log-MAP Equaliser / 11.4: |
RBF Turbo Equaliser Performance / 11.5: |
Reduced-complexity RBF Assisted Turbo equalization / 11.6: |
In-phase/Quadrature-phase Turbo equalization / 11.7: |
Turbo Equalized Convolutional and Space Time Trellis Coding / 11.8: |
Near-Instantaneously Adaptive CDMA and Adaptive Space-Time Coded OFDM / 11.9: |
Burst-by-Burst Adaptive Multiuser Detection CDMA / 12: |
Motivation / 12.1: |
Multiuser Detection / 12.2: |
Multiuser Equaliser Concepts / 12.3: |
Adaptive CDMA Schemes / 12.4: |
Burst-by-Burst AQAM/CDMA / 12.5: |
Adaptive Multicarrier Modulation / 12.6: |
Orthogonal Frequency Division Multiplexing / 13.1: |
OFDM Transmission over Frequency Selective Channels / 13.3: |
OFDM Performance with Frequency Errors and Timing Errors / 13.4: |
Synchronization Algorithms / 13.5: |
Adaptive OFDM / 13.6: |
Pre--Equalization / 13.7: |
Space-Time Coding versus Adaptive Modulation / 13.8: |
Space-Time Trellis Codes / 14.1: |
Space-Time Coded Transmission Over Wideband Channels / 14.3: |
Space-Time Coded Adaptive Modulation for OFDM / 14.4: |
Conclusions and Suggestions for Further Research / 14.6: |
Book Summary and Conclusions / 15.1: |
Suggestions for Future Research / 15.2: |
Closing Remarks / 15.3: |
Appendices / A: |
Turbo Decoding and Equalization Algorithms / A.1: |
MAP Algorithm / A.1.1: |
The Log-MAP Algorithm / A.1.2: |
Calculation of the Source and Parity Log Likelihood Ratio for Turbo Equalization / A.1.3: |
Least Mean Square Algorithm / A.2: |
Minimal Feedforward Order of the RBF DFE [Proof] / A.3: |
BER Analysis of Type-I Star-QAM / A.4: |
Coherent Detection / A.4.1: |
Two-Dimensional Rake Receiver / A.5: |
System Model / A.5.1: |
BER Analysis of Fixed-mode Square QAM / A.5.2: |
Mode Specific Average BEP of Adaptive Modulation / A.6: |
Bibliography |
Index |
Author Index |
Prologue / 1: |
Motivation of the Book / 1.1: |
Adaptation Principles / 1.2: |