| Preface |
| Acknowledgments |
| Introduction / Chapter 1: |
| An Overview / 1.1: |
| Universal Wireless Personal Communications / 1.2: |
| UMTS Objectives and Challenges / 1.2.1: |
| ACTS Program / 1.2.2: |
| Standardization of UMTS / 1.2.3: |
| Wireless Broadband Communication Systems / 1.3: |
| Millimeter Waves / 1.3.1: |
| Preview of the Book / 1.4: |
| References |
| Radio Propagation Aspects / Chapter 2: |
| Large-Scale Propagation Model / 2.1: |
| Medium-Scale Propagation Model / 2.3: |
| Sum of Lognormal Signals / 2.3.1: |
| Small-Scale Propagation Model / 2.4: |
| Sum of Exponential Signals / 2.4.1: |
| Rician Distribution / 2.4.2: |
| Nakagami Distribution / 2.4.3: |
| Combined Rayleigh Fading and Lognormal Shadowing / 2.5: |
| Fading Envelope Statistics / 2.6: |
| LCR / 2.6.1: |
| Average Fade Duration / 2.6.2: |
| Wireless Channel Classification / 2.7: |
| Coherence Bandwidth and Delay Spread / 2.7.1: |
| Coherence Time and Doppler Spread / 2.7.2: |
| Wideband Characteristics / 2.8: |
| Conclusions / 2.9: |
| Random Variable Terms / 2.9.1: |
| Appendix 2A |
| Cellular Concepts / Chapter 3: |
| Frequency Reuse / 3.1: |
| Co-channel Interference / 3.3: |
| Carrier-to-Interference Ratio / 3.4: |
| Handover/Handoff Mechanism / 3.5: |
| Cell Splitting / 3.6: |
| Types of Cellular Networks / 3.7: |
| Macrocellular Radio Networks / 3.7.1: |
| Microcellular Radio Networks / 3.7.2: |
| Picocellular Radio Networks / 3.7.3: |
| Macrocellular Systems / Chapter 4: |
| Co-channel Interference Probability / 4.1: |
| Rayleigh Fading Only / 4.2.1: |
| Lognormal Shadowing Only / 4.2.2: |
| Rayleigh Fading Plus Lognormal Shadowing / 4.2.3: |
| Reuse Distance / 4.2.4: |
| Spectrum Efficiency / 4.2.5: |
| System Bandwidth / 4.2.6: |
| Correlated Shadowing Signals / 4.2.7: |
| Sectorized Cell Layouts / 4.3.1: |
| Co-channel Interference, Thermal, Narrowband and Broadband Man-made Noise / 4.3.2.: |
| Performance Model / 4.4.1: |
| Co-channel Interference Plus Narrowband Class A Noise / 4.4.2: |
| Co-channel Interference Plus Broadband Class B Noise / 4.4.3: |
| Co-channel Interference and Narrowband Plus Broadband Impulsive Class C Noise / 4.4.4: |
| Appendix 4A / 4.4.5: |
| Microcellular Systems / Chapter 5: |
| CIP / 5.1: |
| Propagation Model / 5.2.1: |
| Analytical Model / 5.2.2: |
| Co-channel Interference, Natural, and Man-made Noise Environment / 5.2.3: |
| Man-made Noise / 5.3.1: |
| Microcellular Mobile Radio Systems / 5.3.2: |
| DPSK Modulation Performance / 5.3.3: |
| Picocellular Systems / 5.3.4: |
| Propagation Measurements at 1.9 GHz for Wireless Communications / 6.1: |
| Propagation Measurements / 6.2.1: |
| Formulation of CIP / 6.2.2: |
| Computational Results / 6.2.3: |
| An Illustration to Evaluate a Picocell / 6.2.4: |
| Wideband Indoor Channel Measurements at 2.4, 4.75, and 11.5 GHz / 6.2.5: |
| The Indoor Radio Channel / 6.3.1: |
| Analytical Model for BEP Evaluation / 6.3.2: |
| Appendix 6A / 6.3.4: |
| Appendix 6B |
| Adaptive Equalization / Chapter 7: |
| Overview of Adaptive Equalization Techniques / 7.1: |
| DFE / 7.2.1: |
| Training Algorithms for Adaptive Equalization / 7.2.2: |
| Communication System Model / 7.3: |
| Transmitter / 7.3.1: |
| Multipath Channel Model / 7.3.2: |
| Receiver / 7.3.3: |
| Simulation Results / 7.4: |
| Description of Simulation / 7.4.1: |
| Numerical Results / 7.4.2: |
| Basic CDMA Concepts / 7.5: |
| Spread-Spectrum Multiple Access / 8.1: |
| DS / 8.2.1: |
| FH / 8.2.2: |
| TH / 8.2.3: |
| Chirp Spread Spectrum / 8.2.4: |
| Hybrid Systems / 8.2.5: |
| Design of Pseudonoise Sequences / 8.3: |
| Basics / 8.3.1: |
| PN Codes / 8.3.2: |
| Random Wave Approximation / 8.3.3: |
| Multiple Access Protocols / 8.3.4: |
| Classification of Multiple Access Protocols / 9.1: |
| Contentionless (Scheduling) Multiple Access Protocols / 9.2.1: |
| Contention (Random) Multiple Access Protocols / 9.2.2: |
| CDMA Protocols / 9.2.3: |
| Some Random Access Protocols / 9.3: |
| Slotted ALOHA / 9.3.1: |
| Unslotted Nonpersistent ISMA / 9.3.2: |
| Slotted Nonpersistent ISMA / 9.3.3: |
| Slotted 1-Persistent ISMA / 9.3.4: |
| Slotted ISMA With Collision Detection / 9.3.5: |
| Capture-Model / 9.4: |
| Slotted ALOHA With Capture / 9.4.1: |
| Unslotted Nonpersistent ISMA With Capture / 9.4.2: |
| Slotted Nonpersistent ISMA With Capture / 9.4.3: |
| Slotted 1-Persistent ISMA With Capture / 9.4.4: |
| Slotted Nonpersistent ISMA/CD With Capture / 9.4.5: |
| Slotted 1-Persistent ISMA/CD With Capture / 9.4.6: |
| Throughput Analysis Considering Rayleigh Fading, Lognormal Shadowing, and Near-Far Effect / 9.5: |
| Pure Rayleigh Fading / 9.5.1: |
| Pure Lognormal Shadowing / 9.5.2: |
| Combined Rayleigh Fading and Shadowing / 9.5.3: |
| Combined Shadowing and Near-Far Effect / 9.5.4: |
| Combined Rayleigh Fading, Shadowing, and Near-Far Effect / 9.5.5: |
| Comparison Between Slotted ALOHA, CSMA, and ISMA / 9.5.6: |
| Capture Probability and Throughput Analysis in a Rician/Rayleigh Environment Using BPSK Modulation / 9.6: |
| Channel Model / 9.6.1: |
| Capture Probability / 9.6.2: |
| Random Access Systems With Receiver Capture / 9.6.3: |
| Error Correction Coding / 9.6.4: |
| User Data Throughput / 9.6.5: |
| Cellular DS-CDMA System With Imperfect Power Control and Imperfect Sectorization / 9.6.6: |
| Cellular DS-CDMA / 9.7.1: |
| Capacity Analysis / 9.7.2: |
| Throughput and Delay Analysis / 9.7.3: |
| Results / 9.7.4: |
| Conclusions and Recommendations / 9.7.5: |
| OFDM / Chapter 10: |
| Concept of Parallel Transmission Scheme / 10.1: |
| History of OFDM Transmission / 10.3: |
| Configuration of OFDM Transmission System / 10.4: |
| Configuration of the Transmitter / 10.4.1: |
| Configuration of the Receiver / 10.4.2: |
| BEP / 10.5: |
| Multicarrier CDMA / 10.6: |
| DS-CDMA and MC-CDMA Systems / 11.1: |
| DS-CDMA System / 11.3.1: |
| MC-CDMA System / 11.3.2: |
| MC-CDMA System Design / 11.4: |
| BEP Lower Bound / 11.5: |
| BEP Lower Bound Equivalence / 11.5.1: |
| Combination of Time Domain and Multicarrier Modulation / 11.6: |
| Multicarrier DS-CDMA Scheme / 11.7.1: |
| MT-CDMA Scheme / 11.7.2: |
| System Features Comparison / 11.7.3: |
| Detection Strategies Comparison / 11.7.4: |
| BEP Comparison / 11.8: |
| Appendix 11A / 11.9: |
| Antenna Diversity / Chapter 12: |
| Antenna / 12.1: |
| BS Antennas / 12.2.1: |
| Antennas for Portables / 12.2.2: |
| Diversity and Combining Techniques / 12.3: |
| Diversity Techniques / 12.3.1: |
| Combining Techniques / 12.3.2: |
| Diversity in a Frequency Nonselective Fading Channel / 12.4: |
| Switched Diversity and Selection Diversity Output Signals / 12.4.1: |
| Two-Branch Diversity / 12.4.2: |
| Multiple Branch Diversity / 12.4.3: |
| Millimeter-Wave Communications / 12.5: |
| Frequency Nonselective Channel / 13.1: |
| Received Power Versus Distance / 13.2.1: |
| Outage Probability / 13.2.2: |
| Fade Duration / 13.2.3: |
| Discussion / 13.2.4: |
| Frequency Selective Channel / 13.3: |
| BEP Calculations / 13.3.1: |
| Influence of T[subscript RMS] on BEP / 13.3.2: |
| Comparison of PDP Types / 13.3.3: |
| Dynamic Channel Assignment and DECT / 13.4: |
| Channel Assignment / 14.1: |
| The Cellular Concept / 14.2.1: |
| Channel Allocation Schemes / 14.2.2: |
| DECT as a DCA-Based Mobile Radio System / 14.2.3: |
| The Influence of Delay in Channel Assignment Algorithms / 14.2.4: |
| Channel Scanning Method / 14.3: |
| Number of Free Channels at Setup / 14.3.2: |
| The Effect of Delay / 14.3.3: |
| Handovers / 14.3.4: |
| Air Interface Multiple Access Schemes for FPLMTS/IMT-2000/UMTS / 14.4: |
| Spectrum Issues / 15.1: |
| CDMA-Based Schemes / 15.2: |
| Carrier Spacing and Chip Rate / 15.2.1: |
| Modulation and Detection / 15.2.2: |
| Spreading and Scrambling Codes / 15.2.3: |
| Multirate / 15.2.4: |
| Power Control / 15.2.5: |
| Handover / 15.2.6: |
| Interfrequency Handover / 15.2.7: |
| Multiuser Detection and Other Interference Reduction Methods / 15.2.8: |
| Packet Data / 15.2.9: |
| TDMA-Based Schemes / 15.3: |
| Modulation / 15.3.1: |
| Carrier Spacing and Symbol Rate / 15.3.2: |
| Burst and Frame Structures / 15.3.3: |
| Training Sequence Design / 15.3.4: |
| Radio Resource Management / 15.3.5: |
| Hybrid CDMA/TDMA / 15.4: |
| OFDM-Based Schemes / 15.5: |
| Bandwidth / 15.5.1: |
| Frame Design / 15.5.2: |
| Coding, Interleaving, and Frequency Hopping / 15.5.3: |
| Uplink Synchronization / 15.5.4: |
| DCA / 15.5.6: |
| TDD / 15.6: |
| WBMC / 15.7: |
| Standardization and Frequency Bands / 16.1: |
| The Need for High Data Rates / 16.3: |
| Services and Applications / 16.4: |
| Antennas and Batteries / 16.5: |
| Safety Considerations / 16.6: |
| ATM-Based Wireless (Mobile) Broadband Multimedia Systems / 16.7: |
| Fragments / 16.7.1: |
| OFDM-Based Wireless ATM Transmission System / 16.8: |
| System Configuration / 17.1: |
| Transmitter Configuration / 17.2.1: |
| Receiver Configuration / 17.2.2: |
| SATCOM / 17.3: |
| Potential Benefits of ATM Over SATCOM / 18.1: |
| Key Issues With Respect to the Operation of ATM Over SATCOM / 18.1.2: |
| Understanding the Traffic Profile and Its Relationship to ATM-SATCOM Links / 18.1.3: |
| Conceptual Analysis of Broadband Networking Via IP/ATM Over EHF SATCOM Using CDMA / 18.2: |
| The ATM-SATCOM Protocol Stack / 18.2.1: |
| CDMA for ATM-SATCOM Links / 18.2.2: |
| Capacity as a Function of the User Service Distribution / 18.2.3: |
| Error Correction and Control for ATM-SATCOM Links / 18.3: |
| Performance of TCP/IP Over ATM-SATCOM and Importance of Error Control and Correction / 18.3.1: |
| A Concept for Error Control and Correction Tailored to Service Class / 18.3.2: |
| A CPCS-Based Truncated SRQ Protocol for AAL 5 / 18.3.3: |
| FEC Options for ATM Over SATCOM / 18.3.4: |
| SATCOM Efficiency / 18.4: |
| About the Author / 18.5: |
| Index |
図書
