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LTE for UMTS [[electronic resource] ] : evolution to LTE-Advanced / / edited by Harri Holma, Antti Toskala
| LTE for UMTS [[electronic resource] ] : evolution to LTE-Advanced / / edited by Harri Holma, Antti Toskala |
| Edizione | [2nd ed.] |
| Pubbl/distr/stampa | Chichester, West Sussex, : John Wiley & Sons, c2011 |
| Descrizione fisica | 1 online resource (577 p.) |
| Disciplina | 621.3845/6 |
| Altri autori (Persone) |
HolmaHarri <1970->
ToskalaAntti |
| Soggetto topico |
Global system for mobile communications
Long-Term Evolution (Telecommunications) Mobile communication systems - Standards Universal Mobile Telecommunications System Wireless communication systems - Standards |
| ISBN |
1-283-40544-X
9786613405449 1-119-99295-8 1-119-99294-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
LTE for UMTS Evolution to LTE-Advanced Second Edition; Contents; Preface; Acknowledgements; List of Abbreviations; 1 Introduction; 1.1 Mobile Voice Subscriber Growth; 1.2 Mobile Data Usage Growth; 1.3 Evolution of Wireline Technologies; 1.4 Motivation and Targets for LTE; 1.5 Overview of LTE; 1.6 3GPP Family of Technologies; 1.7 Wireless Spectrum; 1.8 New Spectrum Identified by WRC-07; 1.9 LTE-Advanced; 2 LTE Standardization; 2.1 Introduction; 2.2 Overview of 3GPP Releases and Process; 2.3 LTE Targets; 2.4 LTE Standardization Phases; 2.5 Evolution Beyond Release 8
2.6 LTE-Advanced for IMT-Advanced2.7 LTE Specifications and 3GPP Structure; References; 3 System Architecture Based on 3GPP SAE; 3.1 System Architecture Evolution in 3GPP; 3.2 Basic System Architecture Configuration with only E-UTRAN Access Network; 3.2.1 Overview of Basic System Architecture Configuration; 3.2.2 Logical Elements in Basic System Architecture Configuration; 3.2.3 Self-configuration of S1-MME and X2 Interfaces; 3.2.4 Interfaces and Protocols in Basic System Architecture Configuration; 3.2.5 Roaming in Basic System Architecture Configuration 3.3 System Architecture with E-UTRAN and Legacy 3GPP Access Networks3.3.1 Overview of 3GPP Inter-working System Architecture Configuration; 3.3.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration; 3.3.3 Interfaces and Protocols in 3GPP Inter-working System Architecture Configuration; 3.3.4 Inter-working with Legacy 3GPP CS Infrastructure; 3.4 System Architecture with E-UTRAN and Non-3GPP Access Networks; 3.4.1 Overview of 3GPP and Non-3GPP Inter-working System Architecture Configuration 3.4.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration3.4.3 Interfaces and Protocols in Non-3GPP Inter-working System Architecture Configuration; 3.5 Inter-working with cdma2000® Access Networks; 3.5.1 Architecture for cdma2000® HRPD Inter-working; 3.5.2 Additional and Updated Logical Elements for cdma2000® HRPD Inter-working; 3.5.3 Protocols and Interfaces in cdma2000® HRPD Inter-working; 3.5.4 Inter-working with cdma2000® 1xRTT; 3.6 IMS Architecture; 3.6.1 Overview; 3.6.2 Session Management and Routing; 3.6.3 Databases; 3.6.4 Services Elements 3.6.5 Inter-working Elements3.7 PCC and QoS; 3.7.1 PCC; 3.7.2 QoS; References; 4 Introduction to OFDMA and SC-FDMA and to MIMO in LTE; 4.1 Introduction; 4.2 LTE Multiple Access Background; 4.3 OFDMA Basics; 4.4 SC-FDMA Basics; 4.5 MIMO Basics; 4.6 Summary; References; 5 Physical Layer; 5.1 Introduction; 5.2 Transport Channels and their Mapping to the Physical Channels; 5.3 Modulation; 5.4 Uplink User Data Transmission; 5.5 Downlink User Data Transmission; 5.6 Uplink Physical Layer Signaling Transmission; 5.6.1 Physical Uplink Control Channel, PUCCH; 5.6.2 PUCCH Configuration 5.6.3 Control Signaling on PUSCH |
| Record Nr. | UNINA-9910821005703321 |
| Chichester, West Sussex, : John Wiley & Sons, c2011 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala
| LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 |
| Descrizione fisica | 1 online resource (461 p.) |
| Disciplina |
621.3845/6
621.38456 |
| Altri autori (Persone) |
HolmaHarri <1970->
ToskalaAntti |
| Soggetto topico |
Universal Mobile Telecommunications System
Wireless communication systems - Standards Mobile communication systems - Standards Global system for mobile communications |
| ISBN |
1-282-12367-X
9786612123672 0-470-74548-7 0-470-74547-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
LTE for UMTS - OFDMA and SC-FDMA Based Radio Access; Preface; Acknowledgements; List of Abbreviations; 1 Introduction; 1.1 Mobile Voice Subscriber Growth; 1.2 Mobile Data Usage Growth; 1.3 Wireline Technologies Evolution; 1.4 Motivation and Targets for LTE; 1.5 Overview of LTE; 1.6 3GPP Family of Technologies; 1.7 Wireless Spectrum; 1.8 New Spectrum Identified by WRC-07; 1.9 LTE-Advanced; 2 LTE Standardization; 2.1 Introduction; 2.2 Overview of 3GPP Releases and Process; 2.3 LTE Targets; 2.4 LTE Standardization Phases; 2.5 Evolution Beyond Release 8; 2.6 LTE-Advanced for IMT-Advanced
2.7 LTE Specifications and 3GPP StructureReferences; 3 System Architecture Based on 3GPP SAE; 3.1 System Architecture Evolution in 3GPP SAE; 3.2 Basic System Architecture Configuration with only E-UTRAN Access Network; 3.2.1 Overview of Basic System Architecture Configuration; 3.2.2 Logical Elements in Basic System Architecture Configuration; 3.2.3 Self-configuration of S1-MME and X2 Interfaces; 3.2.4 Interfaces and Protocols in Basic System Architecture Configuration; 3.2.5 Roaming in Basic System Architecture Configuration 3.3 System Architecture with E-UTRAN and Legacy 3GPP Access Networks3.3.1 Overview of 3GPP Inter-working System Architecture Configuration; 3.3.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration; 3.3.3 Interfaces and Protocols in 3GPP Inter-working System Architecture Configuration; 3.3.4 Inter-working with Legacy 3GPP CS Infrastructure; 3.4 System Architecture with E-UTRAN and Non-3GPP Access Networks; 3.4.1 Overview of 3GPP and Non-3GPP Inter-working System Architecture Configuration 3.4.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration3.4.3 Interfaces and Protocols in Non-3GPP Inter-working System Architecture Configuration; 3.4.4 Roaming in Non-3GPP Inter-working System Architecture Configuration; 3.5 Inter-working with cdma2000 Access Networks; 3.5.1 Architecture for cdma2000 HRPD Interworking; 3.5.2 Additional and Updated Logical Elements for cdma2000® HRPD Inter-working; 3.5.3 Protocols and Interfaces in cdma2000® HRPD Inter-working; 3.5.4 Inter-working with cdma2000® 1xRTT; 3.6 IMS Architecture; 3.6.1 Overview 3.6.2 Session Management and Routing3.6.3 Databases; 3.6.4 Services Elements; 3.6.5 Inter-working Elements; 3.7 PCC and QoS; 3.7.1 PCC; 3.7.2 QoS; References; 4 Introduction to OFDMA and SC-FDMA and to MIMO in LTE; 4.1 Introduction; 4.2 LTE Multiple Access Background; 4.3 OFDMA Basics; 4.4 SC-FDMA Basics; 4.5 MIMO Basics; 4.6 Summary; References; 5 Physical Layer; 5.1 Introduction; 5.2 Transport Channels and Their Mapping to the Physical Channels; 5.3 Modulation; 5.4 Uplink User Data Transmission; 5.5 Downlink User Data Transmission; 5.6 Uplink Physical Layer Signaling Transmission 5.6.1 Physical Uplink Control Channel (PUCCH) |
| Record Nr. | UNINA-9910146132403321 |
| Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala
| LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 |
| Descrizione fisica | 1 online resource (461 p.) |
| Disciplina |
621.3845/6
621.38456 |
| Altri autori (Persone) |
HolmaHarri <1970->
ToskalaAntti |
| Soggetto topico |
Universal Mobile Telecommunications System
Wireless communication systems - Standards Mobile communication systems - Standards Global system for mobile communications |
| ISBN |
1-282-12367-X
9786612123672 0-470-74548-7 0-470-74547-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
LTE for UMTS - OFDMA and SC-FDMA Based Radio Access; Preface; Acknowledgements; List of Abbreviations; 1 Introduction; 1.1 Mobile Voice Subscriber Growth; 1.2 Mobile Data Usage Growth; 1.3 Wireline Technologies Evolution; 1.4 Motivation and Targets for LTE; 1.5 Overview of LTE; 1.6 3GPP Family of Technologies; 1.7 Wireless Spectrum; 1.8 New Spectrum Identified by WRC-07; 1.9 LTE-Advanced; 2 LTE Standardization; 2.1 Introduction; 2.2 Overview of 3GPP Releases and Process; 2.3 LTE Targets; 2.4 LTE Standardization Phases; 2.5 Evolution Beyond Release 8; 2.6 LTE-Advanced for IMT-Advanced
2.7 LTE Specifications and 3GPP StructureReferences; 3 System Architecture Based on 3GPP SAE; 3.1 System Architecture Evolution in 3GPP SAE; 3.2 Basic System Architecture Configuration with only E-UTRAN Access Network; 3.2.1 Overview of Basic System Architecture Configuration; 3.2.2 Logical Elements in Basic System Architecture Configuration; 3.2.3 Self-configuration of S1-MME and X2 Interfaces; 3.2.4 Interfaces and Protocols in Basic System Architecture Configuration; 3.2.5 Roaming in Basic System Architecture Configuration 3.3 System Architecture with E-UTRAN and Legacy 3GPP Access Networks3.3.1 Overview of 3GPP Inter-working System Architecture Configuration; 3.3.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration; 3.3.3 Interfaces and Protocols in 3GPP Inter-working System Architecture Configuration; 3.3.4 Inter-working with Legacy 3GPP CS Infrastructure; 3.4 System Architecture with E-UTRAN and Non-3GPP Access Networks; 3.4.1 Overview of 3GPP and Non-3GPP Inter-working System Architecture Configuration 3.4.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration3.4.3 Interfaces and Protocols in Non-3GPP Inter-working System Architecture Configuration; 3.4.4 Roaming in Non-3GPP Inter-working System Architecture Configuration; 3.5 Inter-working with cdma2000 Access Networks; 3.5.1 Architecture for cdma2000 HRPD Interworking; 3.5.2 Additional and Updated Logical Elements for cdma2000® HRPD Inter-working; 3.5.3 Protocols and Interfaces in cdma2000® HRPD Inter-working; 3.5.4 Inter-working with cdma2000® 1xRTT; 3.6 IMS Architecture; 3.6.1 Overview 3.6.2 Session Management and Routing3.6.3 Databases; 3.6.4 Services Elements; 3.6.5 Inter-working Elements; 3.7 PCC and QoS; 3.7.1 PCC; 3.7.2 QoS; References; 4 Introduction to OFDMA and SC-FDMA and to MIMO in LTE; 4.1 Introduction; 4.2 LTE Multiple Access Background; 4.3 OFDMA Basics; 4.4 SC-FDMA Basics; 4.5 MIMO Basics; 4.6 Summary; References; 5 Physical Layer; 5.1 Introduction; 5.2 Transport Channels and Their Mapping to the Physical Channels; 5.3 Modulation; 5.4 Uplink User Data Transmission; 5.5 Downlink User Data Transmission; 5.6 Uplink Physical Layer Signaling Transmission 5.6.1 Physical Uplink Control Channel (PUCCH) |
| Record Nr. | UNINA-9910830209703321 |
| Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala
| LTE for UMTS-OFDMA and SC-FDMA based radio access [[electronic resource] /] / edited by Harri Holma, Antti Toskala |
| Pubbl/distr/stampa | Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 |
| Descrizione fisica | 1 online resource (461 p.) |
| Disciplina |
621.3845/6
621.38456 |
| Altri autori (Persone) |
HolmaHarri <1970->
ToskalaAntti |
| Soggetto topico |
Universal Mobile Telecommunications System
Wireless communication systems - Standards Mobile communication systems - Standards Global system for mobile communications |
| ISBN |
1-282-12367-X
9786612123672 0-470-74548-7 0-470-74547-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
LTE for UMTS - OFDMA and SC-FDMA Based Radio Access; Preface; Acknowledgements; List of Abbreviations; 1 Introduction; 1.1 Mobile Voice Subscriber Growth; 1.2 Mobile Data Usage Growth; 1.3 Wireline Technologies Evolution; 1.4 Motivation and Targets for LTE; 1.5 Overview of LTE; 1.6 3GPP Family of Technologies; 1.7 Wireless Spectrum; 1.8 New Spectrum Identified by WRC-07; 1.9 LTE-Advanced; 2 LTE Standardization; 2.1 Introduction; 2.2 Overview of 3GPP Releases and Process; 2.3 LTE Targets; 2.4 LTE Standardization Phases; 2.5 Evolution Beyond Release 8; 2.6 LTE-Advanced for IMT-Advanced
2.7 LTE Specifications and 3GPP StructureReferences; 3 System Architecture Based on 3GPP SAE; 3.1 System Architecture Evolution in 3GPP SAE; 3.2 Basic System Architecture Configuration with only E-UTRAN Access Network; 3.2.1 Overview of Basic System Architecture Configuration; 3.2.2 Logical Elements in Basic System Architecture Configuration; 3.2.3 Self-configuration of S1-MME and X2 Interfaces; 3.2.4 Interfaces and Protocols in Basic System Architecture Configuration; 3.2.5 Roaming in Basic System Architecture Configuration 3.3 System Architecture with E-UTRAN and Legacy 3GPP Access Networks3.3.1 Overview of 3GPP Inter-working System Architecture Configuration; 3.3.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration; 3.3.3 Interfaces and Protocols in 3GPP Inter-working System Architecture Configuration; 3.3.4 Inter-working with Legacy 3GPP CS Infrastructure; 3.4 System Architecture with E-UTRAN and Non-3GPP Access Networks; 3.4.1 Overview of 3GPP and Non-3GPP Inter-working System Architecture Configuration 3.4.2 Additional and Updated Logical Elements in 3GPP Inter-working System Architecture Configuration3.4.3 Interfaces and Protocols in Non-3GPP Inter-working System Architecture Configuration; 3.4.4 Roaming in Non-3GPP Inter-working System Architecture Configuration; 3.5 Inter-working with cdma2000 Access Networks; 3.5.1 Architecture for cdma2000 HRPD Interworking; 3.5.2 Additional and Updated Logical Elements for cdma2000® HRPD Inter-working; 3.5.3 Protocols and Interfaces in cdma2000® HRPD Inter-working; 3.5.4 Inter-working with cdma2000® 1xRTT; 3.6 IMS Architecture; 3.6.1 Overview 3.6.2 Session Management and Routing3.6.3 Databases; 3.6.4 Services Elements; 3.6.5 Inter-working Elements; 3.7 PCC and QoS; 3.7.1 PCC; 3.7.2 QoS; References; 4 Introduction to OFDMA and SC-FDMA and to MIMO in LTE; 4.1 Introduction; 4.2 LTE Multiple Access Background; 4.3 OFDMA Basics; 4.4 SC-FDMA Basics; 4.5 MIMO Basics; 4.6 Summary; References; 5 Physical Layer; 5.1 Introduction; 5.2 Transport Channels and Their Mapping to the Physical Channels; 5.3 Modulation; 5.4 Uplink User Data Transmission; 5.5 Downlink User Data Transmission; 5.6 Uplink Physical Layer Signaling Transmission 5.6.1 Physical Uplink Control Channel (PUCCH) |
| Record Nr. | UNINA-9910841613203321 |
| Chichester, West Sussex, U.K. ; ; Hoboken, NJ, : Wiley, 2009 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Signal processing for 5G : algorithms and implementations / / edited by Fa-Long Luo, Charlie Zhang
| Signal processing for 5G : algorithms and implementations / / edited by Fa-Long Luo, Charlie Zhang |
| Pubbl/distr/stampa | Chichester, West Sussex, United Kingdom : , : John Wiley & Sons Inc., , [2016] |
| Descrizione fisica | 1 online resource (612 pages) : illustrations |
| Disciplina | 621.3845/6 |
| Collana | Wiley - IEEE |
| Soggetto topico |
Signal processing - Digital techniques - Mathematics
Mobile communication systems - Standards Wireless communication systems - Standards Computer algorithms |
| ISBN |
1-119-11648-1
1-119-11647-3 1-119-11649-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Preface xvii -- List of Contributors xxv -- Part I MODULATION, CODING AND WAVEFORM FOR 5G -- 1 An Introduction to Modulations and Waveforms for 5G Networks 3 /Stefano Buzzi, Alessandro Ugolini, Alessio Zappone and Giulio Colavolpe -- 1.1 Motivation and Background 3 -- 1.2 New Modulation Formats: FBMC, GFDM, BFDM, UFMC and TFP 7 -- 1.3 Waveform Choice 19 -- 1.4 Discussion and Concluding Remarks 20 -- References 22 -- 2 Faster-than-Nyquist Signaling for 5G Communication 24 /John B. Anderson -- 2.1 Introduction to FTN Signaling 25 -- 2.2 Time FTN: Receivers and Performance 32 -- 2.3 Frequency FTN Signaling 41 -- 2.4 Summary of the Chapter 45 -- References 46 -- 3 From OFDM to FBMC: Principles and Comparisons 47 /Wei Jiang and Thomas Kaiser -- 3.1 Introduction 47 -- 3.2 The Filter Bank 49 -- 3.3 Polyphase Implementation 53 -- 3.4 OFDM 55 -- 3.5 FBMC 61 -- 3.6 Comparison of FBMC and Filtered OFDM 62 -- 3.7 Conclusion 65 -- References 66 -- 4 Filter Bank Multicarrier for Massive MIMO 67 /Arman Farhang, Nicola Marchetti and Behrouz Farhang-Boroujeny -- 4.1 System Model and FBMC Formulation in Massive MIMO 69 -- 4.2 Self-equalization Property of FBMC in Massive MIMO 74 -- 4.3 Comparison with OFDM 80 -- 4.4 Blind Equalization and Pilot Decontamination 82 -- 4.5 Conclusion 87 -- References 88 -- 5 Bandwidth-compressed Multicarrier Communication: SEFDM 90 /Izzat Darwazeh, Tongyang Xu and Ryan C Grammenos -- 5.1 Introduction 91 -- 5.2 SEFDM Fundamentals 93 -- 5.3 Block-SEFDM 97 -- 5.4 Turbo-SEFDM 102 -- 5.5 Practical Considerations and Experimental Demonstration 106 -- 5.6 Summary 112 -- References 112 -- 6 Non-orthogonal Multi-User Superposition and Shared Access 115 /Yifei Yuan -- 6.1 Introduction 115 -- 6.2 Basic Principles and Features of Non-orthogonal Multi-user Access 116 -- 6.3 Downlink Non-orthogonal Multi-user Transmission 121 -- 6.4 Uplink Non-orthogonal Multi-user Access 129 -- 6.5 Summary and Future Work 140 -- References 142 -- 7 Non-Orthogonal Multiple Access (NOMA): Concept and Design 143 /Anass Benjebbour, Keisuke Saito, Anxin Li, Yoshihisa Kishiyama and Takehiro Nakamura.
7.1 Introduction 143 -- 7.2 Concept 145 -- 7.3 Benefits and Motivations 148 -- 7.4 Interface Design 150 -- 7.5 MIMO Support 153 -- 7.6 Performance Evaluations 157 -- 7.7 Conclusion 166 -- References 167 -- 8 Major 5G Waveform Candidates: Overview and Comparison 169 /Hao Lin and Pierre Siohan -- 8.1 Why We Need New Waveforms 170 -- 8.2 Major Multicarrier Modulation Candidates 171 -- 8.3 High-level Comparison 178 -- 8.4 Conclusion 184 -- List of acronyms 185 -- References 186 -- Part II NEW SPATIAL SIGNAL PROCESSING FOR 5G -- 9 Massive MIMO for 5G: Theory, Implementation and Prototyping 191 /Ove Edfors, Liang Liu, Fredrik Tufvesson, Nikhil Kundargi and Karl Nieman -- 9.1 Introduction 192 -- 9.2 Massive MIMO Theory 194 -- 9.3 Massive MIMO Channels 199 -- 9.4 Massive MIMO Implementation 204 -- 9.5 Testbed Design 214 -- 9.6 Synchronization 224 -- 9.7 Future Challenges and Conclusion 227 -- Acknowledgments 228 -- References 228 -- 10 Millimeter-Wave MIMO Transceivers: Theory, Design and Implementation 231 /Akbar M. Sayeed and John H. Brady -- 10.1 Introduction 232 -- 10.2 Overview of Millimeter-Wave MIMO Transceiver Architectures 235 -- 10.3 Point-to-Point Single-User Systems 237 -- 10.4 Point-to-Multipoint Multiuser Systems 243 -- 10.5 Extensions 249 -- 10.6 Conclusion 250 -- References 251 -- 11 3D Propagation Channels: Modeling and Measurements 254 /Andreas F. Molisch -- 11.1 Introduction and Motivation 255 -- 11.2 Measurement Techniques 257 -- 11.3 Propagation Effects 260 -- 11.4 Measurement Results 263 -- 11.5 Channel Models 266 -- 11.6 Summary and Open Issues 268 -- Acknowledgements 269 -- Disclaimer 269 -- References 269 -- 12 3D-MIMO with Massive Antennas: Theory, Implementation and Testing 273 /Guangyi Liu, Xueying Hou, Fei Wang, Jing Jin and Hui Tong -- 12.1 Introduction 274 -- 12.2 Application Scenarios of 3D-MIMO with Massive Antennas 276 -- 12.3 Exploiting 3D-MIMO Gain Based on Techniques in Current Standards 277 -- 12.4 Evaluation by System-level Simulations 283. 12.5 Field Trials of 3D-MIMO with Massive Antennas 288 -- 12.6 Achieving 3D-MIMO with Massive Antennas from Theory to Practice 292 -- 12.7 Conclusions 294 -- References 295 -- 13 Orbital Angular Momentum-based Wireless Communications: Designs and Implementations 296 /Alan. E. Willner, Yan Yan, Yongxiong Ren, Nisar Ahmed and Guodong Xie -- 13.1 EM Waves Carrying OAM 297 -- 13.2 Application of OAM to RF Communications 298 -- 13.3 OAM Beam Generation, Multiplexing and Detection 300 -- 13.4 Wireless Communications Using OAM Multiplexing 303 -- 13.5 Summary and Perspective 315 -- References 316 -- Part III NEW SPECTRUM OPPORTUNITIES FOR 5G -- 14 MillimeterWaves for 5G: From Theory To Practice 321 /Malik Gul, Eckhard Ohlmer, Ahsan Aziz, Wes McCoy and Yong Rao -- 14.1 Introduction 321 -- 14.2 Building a mmWave PoC System 322 -- 14.3 Desirable Features of a mmWave Prototyping System 323 -- 14.4 Case Study: a mmWave Cellular PoC 326 -- 14.5 Conclusion 352 -- References 353 -- 15 *5G Millimeter-wave Communication Channel and Technology Overview 354 /Qian (Clara) Li, Hyejung Jung, Pingping Zong and Geng Wu -- 15.1 Introduction 354 -- 15.2 Millimeter-wave Channel Characteristics 355 -- 15.3 Requirements for a 5G mmWave Channel Model 357 -- 15.4 Millimeter-wave Channel Model for 5G 358 -- 15.5 Signal Processing for mmWave Band 5G RAT 365 -- 15.6 Summary 370 -- References 371 -- 16 General Principles and Basic Algorithms for Full-duplex Transmission 372 /Thomas Kaiser and Nidal Zarifeh -- 16.1 Introduction 373 -- 16.2 Self-interference: Basic Analyses and Models 374 -- 16.3 SIC Techniques and Algorithms 376 -- 16.4 Hardware Impairments and Implementation Challenges 386 -- 16.5 Looking Toward Full-duplex MIMO Systems 393 -- 16.6 Conclusion and Outlook 396 -- References 397 -- 17 Design and Implementation of Full-duplex Transceivers 402 /Katsuyuki Haneda, Mikko Valkama, Taneli Riihonen, Emilio Antonio-Rodriguez and Dani Korpi -- 17.1 Research Challenges 405 -- 17.2 Antenna Designs 409. 17.3 RF Self-interference Cancellation Methods 411 -- 17.4 Digital Self-interference Cancellation Algorithms 413 -- 17.5 Demonstration 423 -- 17.6 Summary 426 -- Acknowledgements 426 -- References 426 -- Part IV NEW SYSTEM-LEVEL ENABLING TECHNOLOGIES FOR 5G -- 18 Cloud Radio Access Networks: Uplink Channel Estimation and Downlink Precoding 431 /Osvaldo Simeone, Jinkyu Kang, Joonkhyuk Kang and Shlomo Shamai (Shitz) -- 18.1 Introduction 432 -- 18.2 Technology Background 432 -- 18.3 Uplink: Where to Perform Channel Estimation? 434 -- 18.4 Downlink: Where to Perform Channel Encoding and Precoding? 441 -- 18.5 Concluding Remarks 453 -- References 454 -- 19 Energy-efficient Resource Allocation in 5G with Application to D2D 456 /Alessio Zappone, Francesco Di Stasio, Stefano Buzzi and Eduard Jorswieck -- 19.1 Introduction 457 -- 19.2 Signal Model 459 -- 19.3 Resource Allocation 461 -- 19.4 Fractional Programming 462 -- 19.5 Algorithms 466 -- 19.6 Sequential Fractional Programming 469 -- 19.7 System Optimization 471 -- 19.8 Numerical Results 476 -- 19.9 Conclusion 480 -- References 481 -- 20 Ultra Dense Networks: General Introduction and Design Overview 483 /Jianchi Zhu, Xiaoming She and Peng Chen -- 20.1 Introduction 484 -- 20.2 Interference Management 487 -- 20.3 Mobility Management 495 -- 20.4 Architecture and Backhaul 499 -- 20.5 Other Issues in UDNs for 5G 503 -- 20.6 Conclusions 505 -- Acknowledgements 506 -- References 506 -- 21 Radio-resource Management and Optimization in 5G Networks 509 /Antonis Gotsis, Athanasios Panagopoulos, Stelios Stefanatos and Angeliki Alexiou -- 21.1 Introduction 510 -- 21.2 Background 511 -- 21.3 Optimal Strategies for Single-antenna Coordinated Ultradense Networks 514 -- 21.4 Optimal Strategies for Multi-antenna Coordinated and Cooperative Ultradense Networks 525 -- 21.5 Summary and Future Research Directions 533 -- Acknowledgments 534 -- References 534 -- Part V REFERENCE DESIGN AND 5G STANDARD DEVELOPMENT -- 22 Full-duplex Radios in 5G: Fundamentals, Design and Prototyping 539 /Jaeweon Kim, Min Soo Sim, MinKeun Chung, Dong Ku Kim and Chan-Byoung Chae. 22.1 Introduction 540 -- 22.2 Self-interference 541 -- 22.3 Analog Self-interference Cancellation 542 -- 22.4 Digital Self-interference Cancellation 547 -- 22.5 Prototyping Full-duplex Radios 550 -- 22.6 Overall Performance Evaluation 558 -- 22.7 Conclusion 559 -- References 559 -- 23 5G Standard Development: Technology and Roadmap 561 /Juho Lee and Yongjun Kwak -- 23.1 Introduction 561 -- 23.2 Standards Roadmap from 4G to 5G 562 -- 23.3 Preparation of 5G Cellular Communication Standards 570 -- 23.4 Concluding Remarks 575 -- References 575 -- Index 577. |
| Record Nr. | UNINA-9910135021403321 |
| Chichester, West Sussex, United Kingdom : , : John Wiley & Sons Inc., , [2016] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Signal processing for 5G : algorithms and implementations / / edited by Fa-Long Luo, Charlie Zhang
| Signal processing for 5G : algorithms and implementations / / edited by Fa-Long Luo, Charlie Zhang |
| Pubbl/distr/stampa | Chichester, West Sussex, United Kingdom : , : John Wiley & Sons Inc., , [2016] |
| Descrizione fisica | 1 online resource (612 pages) : illustrations |
| Disciplina | 621.3845/6 |
| Collana | Wiley - IEEE |
| Soggetto topico |
Signal processing - Digital techniques - Mathematics
Mobile communication systems - Standards Wireless communication systems - Standards Computer algorithms |
| ISBN |
1-119-11648-1
1-119-11647-3 1-119-11649-X |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Preface xvii -- List of Contributors xxv -- Part I MODULATION, CODING AND WAVEFORM FOR 5G -- 1 An Introduction to Modulations and Waveforms for 5G Networks 3 /Stefano Buzzi, Alessandro Ugolini, Alessio Zappone and Giulio Colavolpe -- 1.1 Motivation and Background 3 -- 1.2 New Modulation Formats: FBMC, GFDM, BFDM, UFMC and TFP 7 -- 1.3 Waveform Choice 19 -- 1.4 Discussion and Concluding Remarks 20 -- References 22 -- 2 Faster-than-Nyquist Signaling for 5G Communication 24 /John B. Anderson -- 2.1 Introduction to FTN Signaling 25 -- 2.2 Time FTN: Receivers and Performance 32 -- 2.3 Frequency FTN Signaling 41 -- 2.4 Summary of the Chapter 45 -- References 46 -- 3 From OFDM to FBMC: Principles and Comparisons 47 /Wei Jiang and Thomas Kaiser -- 3.1 Introduction 47 -- 3.2 The Filter Bank 49 -- 3.3 Polyphase Implementation 53 -- 3.4 OFDM 55 -- 3.5 FBMC 61 -- 3.6 Comparison of FBMC and Filtered OFDM 62 -- 3.7 Conclusion 65 -- References 66 -- 4 Filter Bank Multicarrier for Massive MIMO 67 /Arman Farhang, Nicola Marchetti and Behrouz Farhang-Boroujeny -- 4.1 System Model and FBMC Formulation in Massive MIMO 69 -- 4.2 Self-equalization Property of FBMC in Massive MIMO 74 -- 4.3 Comparison with OFDM 80 -- 4.4 Blind Equalization and Pilot Decontamination 82 -- 4.5 Conclusion 87 -- References 88 -- 5 Bandwidth-compressed Multicarrier Communication: SEFDM 90 /Izzat Darwazeh, Tongyang Xu and Ryan C Grammenos -- 5.1 Introduction 91 -- 5.2 SEFDM Fundamentals 93 -- 5.3 Block-SEFDM 97 -- 5.4 Turbo-SEFDM 102 -- 5.5 Practical Considerations and Experimental Demonstration 106 -- 5.6 Summary 112 -- References 112 -- 6 Non-orthogonal Multi-User Superposition and Shared Access 115 /Yifei Yuan -- 6.1 Introduction 115 -- 6.2 Basic Principles and Features of Non-orthogonal Multi-user Access 116 -- 6.3 Downlink Non-orthogonal Multi-user Transmission 121 -- 6.4 Uplink Non-orthogonal Multi-user Access 129 -- 6.5 Summary and Future Work 140 -- References 142 -- 7 Non-Orthogonal Multiple Access (NOMA): Concept and Design 143 /Anass Benjebbour, Keisuke Saito, Anxin Li, Yoshihisa Kishiyama and Takehiro Nakamura.
7.1 Introduction 143 -- 7.2 Concept 145 -- 7.3 Benefits and Motivations 148 -- 7.4 Interface Design 150 -- 7.5 MIMO Support 153 -- 7.6 Performance Evaluations 157 -- 7.7 Conclusion 166 -- References 167 -- 8 Major 5G Waveform Candidates: Overview and Comparison 169 /Hao Lin and Pierre Siohan -- 8.1 Why We Need New Waveforms 170 -- 8.2 Major Multicarrier Modulation Candidates 171 -- 8.3 High-level Comparison 178 -- 8.4 Conclusion 184 -- List of acronyms 185 -- References 186 -- Part II NEW SPATIAL SIGNAL PROCESSING FOR 5G -- 9 Massive MIMO for 5G: Theory, Implementation and Prototyping 191 /Ove Edfors, Liang Liu, Fredrik Tufvesson, Nikhil Kundargi and Karl Nieman -- 9.1 Introduction 192 -- 9.2 Massive MIMO Theory 194 -- 9.3 Massive MIMO Channels 199 -- 9.4 Massive MIMO Implementation 204 -- 9.5 Testbed Design 214 -- 9.6 Synchronization 224 -- 9.7 Future Challenges and Conclusion 227 -- Acknowledgments 228 -- References 228 -- 10 Millimeter-Wave MIMO Transceivers: Theory, Design and Implementation 231 /Akbar M. Sayeed and John H. Brady -- 10.1 Introduction 232 -- 10.2 Overview of Millimeter-Wave MIMO Transceiver Architectures 235 -- 10.3 Point-to-Point Single-User Systems 237 -- 10.4 Point-to-Multipoint Multiuser Systems 243 -- 10.5 Extensions 249 -- 10.6 Conclusion 250 -- References 251 -- 11 3D Propagation Channels: Modeling and Measurements 254 /Andreas F. Molisch -- 11.1 Introduction and Motivation 255 -- 11.2 Measurement Techniques 257 -- 11.3 Propagation Effects 260 -- 11.4 Measurement Results 263 -- 11.5 Channel Models 266 -- 11.6 Summary and Open Issues 268 -- Acknowledgements 269 -- Disclaimer 269 -- References 269 -- 12 3D-MIMO with Massive Antennas: Theory, Implementation and Testing 273 /Guangyi Liu, Xueying Hou, Fei Wang, Jing Jin and Hui Tong -- 12.1 Introduction 274 -- 12.2 Application Scenarios of 3D-MIMO with Massive Antennas 276 -- 12.3 Exploiting 3D-MIMO Gain Based on Techniques in Current Standards 277 -- 12.4 Evaluation by System-level Simulations 283. 12.5 Field Trials of 3D-MIMO with Massive Antennas 288 -- 12.6 Achieving 3D-MIMO with Massive Antennas from Theory to Practice 292 -- 12.7 Conclusions 294 -- References 295 -- 13 Orbital Angular Momentum-based Wireless Communications: Designs and Implementations 296 /Alan. E. Willner, Yan Yan, Yongxiong Ren, Nisar Ahmed and Guodong Xie -- 13.1 EM Waves Carrying OAM 297 -- 13.2 Application of OAM to RF Communications 298 -- 13.3 OAM Beam Generation, Multiplexing and Detection 300 -- 13.4 Wireless Communications Using OAM Multiplexing 303 -- 13.5 Summary and Perspective 315 -- References 316 -- Part III NEW SPECTRUM OPPORTUNITIES FOR 5G -- 14 MillimeterWaves for 5G: From Theory To Practice 321 /Malik Gul, Eckhard Ohlmer, Ahsan Aziz, Wes McCoy and Yong Rao -- 14.1 Introduction 321 -- 14.2 Building a mmWave PoC System 322 -- 14.3 Desirable Features of a mmWave Prototyping System 323 -- 14.4 Case Study: a mmWave Cellular PoC 326 -- 14.5 Conclusion 352 -- References 353 -- 15 *5G Millimeter-wave Communication Channel and Technology Overview 354 /Qian (Clara) Li, Hyejung Jung, Pingping Zong and Geng Wu -- 15.1 Introduction 354 -- 15.2 Millimeter-wave Channel Characteristics 355 -- 15.3 Requirements for a 5G mmWave Channel Model 357 -- 15.4 Millimeter-wave Channel Model for 5G 358 -- 15.5 Signal Processing for mmWave Band 5G RAT 365 -- 15.6 Summary 370 -- References 371 -- 16 General Principles and Basic Algorithms for Full-duplex Transmission 372 /Thomas Kaiser and Nidal Zarifeh -- 16.1 Introduction 373 -- 16.2 Self-interference: Basic Analyses and Models 374 -- 16.3 SIC Techniques and Algorithms 376 -- 16.4 Hardware Impairments and Implementation Challenges 386 -- 16.5 Looking Toward Full-duplex MIMO Systems 393 -- 16.6 Conclusion and Outlook 396 -- References 397 -- 17 Design and Implementation of Full-duplex Transceivers 402 /Katsuyuki Haneda, Mikko Valkama, Taneli Riihonen, Emilio Antonio-Rodriguez and Dani Korpi -- 17.1 Research Challenges 405 -- 17.2 Antenna Designs 409. 17.3 RF Self-interference Cancellation Methods 411 -- 17.4 Digital Self-interference Cancellation Algorithms 413 -- 17.5 Demonstration 423 -- 17.6 Summary 426 -- Acknowledgements 426 -- References 426 -- Part IV NEW SYSTEM-LEVEL ENABLING TECHNOLOGIES FOR 5G -- 18 Cloud Radio Access Networks: Uplink Channel Estimation and Downlink Precoding 431 /Osvaldo Simeone, Jinkyu Kang, Joonkhyuk Kang and Shlomo Shamai (Shitz) -- 18.1 Introduction 432 -- 18.2 Technology Background 432 -- 18.3 Uplink: Where to Perform Channel Estimation? 434 -- 18.4 Downlink: Where to Perform Channel Encoding and Precoding? 441 -- 18.5 Concluding Remarks 453 -- References 454 -- 19 Energy-efficient Resource Allocation in 5G with Application to D2D 456 /Alessio Zappone, Francesco Di Stasio, Stefano Buzzi and Eduard Jorswieck -- 19.1 Introduction 457 -- 19.2 Signal Model 459 -- 19.3 Resource Allocation 461 -- 19.4 Fractional Programming 462 -- 19.5 Algorithms 466 -- 19.6 Sequential Fractional Programming 469 -- 19.7 System Optimization 471 -- 19.8 Numerical Results 476 -- 19.9 Conclusion 480 -- References 481 -- 20 Ultra Dense Networks: General Introduction and Design Overview 483 /Jianchi Zhu, Xiaoming She and Peng Chen -- 20.1 Introduction 484 -- 20.2 Interference Management 487 -- 20.3 Mobility Management 495 -- 20.4 Architecture and Backhaul 499 -- 20.5 Other Issues in UDNs for 5G 503 -- 20.6 Conclusions 505 -- Acknowledgements 506 -- References 506 -- 21 Radio-resource Management and Optimization in 5G Networks 509 /Antonis Gotsis, Athanasios Panagopoulos, Stelios Stefanatos and Angeliki Alexiou -- 21.1 Introduction 510 -- 21.2 Background 511 -- 21.3 Optimal Strategies for Single-antenna Coordinated Ultradense Networks 514 -- 21.4 Optimal Strategies for Multi-antenna Coordinated and Cooperative Ultradense Networks 525 -- 21.5 Summary and Future Research Directions 533 -- Acknowledgments 534 -- References 534 -- Part V REFERENCE DESIGN AND 5G STANDARD DEVELOPMENT -- 22 Full-duplex Radios in 5G: Fundamentals, Design and Prototyping 539 /Jaeweon Kim, Min Soo Sim, MinKeun Chung, Dong Ku Kim and Chan-Byoung Chae. 22.1 Introduction 540 -- 22.2 Self-interference 541 -- 22.3 Analog Self-interference Cancellation 542 -- 22.4 Digital Self-interference Cancellation 547 -- 22.5 Prototyping Full-duplex Radios 550 -- 22.6 Overall Performance Evaluation 558 -- 22.7 Conclusion 559 -- References 559 -- 23 5G Standard Development: Technology and Roadmap 561 /Juho Lee and Yongjun Kwak -- 23.1 Introduction 561 -- 23.2 Standards Roadmap from 4G to 5G 562 -- 23.3 Preparation of 5G Cellular Communication Standards 570 -- 23.4 Concluding Remarks 575 -- References 575 -- Index 577. |
| Record Nr. | UNINA-9910814414903321 |
| Chichester, West Sussex, United Kingdom : , : John Wiley & Sons Inc., , [2016] | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Spectrum requirement planning in wireless communications : model and methodology for IMT-Advanced / / [edited by] Hideaki Takagi, Bernhard H. Walke
| Spectrum requirement planning in wireless communications : model and methodology for IMT-Advanced / / [edited by] Hideaki Takagi, Bernhard H. Walke |
| Pubbl/distr/stampa | Chichester, England ; , : Wiley, , c2008 |
| Descrizione fisica | 1 online resource (268 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) |
TakagiHideaki
WalkeBernhard |
| Collana | Wiley series on wireless communications and mobile computing |
| Soggetto topico |
Wireless communication systems - Standards
Cell phone systems - Standards Mobile communication systems - Standards Radio frequency allocation - International cooperation |
| ISBN |
1-282-34353-X
9786612343537 0-470-75894-5 0-470-75895-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
About the Series Editors -- Preface -- 1 Introduction (Bernhard H. Walke and Hitoshi Yoshino) -- 1.1 Trends inMobileCommunication -- 1.1.1 Mobileapplicationsandservices -- 1.1.2 Radio interface technologies -- 1.1.3 Standardization -- 1.2 Trends inSpectrumUsage -- 1.2.1 Physicalpropertiesof radiospectra -- 1.2.2 Spectrumallocationandidentification -- 1.3 SpectrumAllocation:Why and How -- 2 Utilization of Radio Frequencies (Hitoshi Yoshino, Naoto Matoba, Pekka Ojanen and Bernhard H. Walke) -- 2.1 SpectrumUsageOverview -- 2.2 Spectrum Management by ITU -- 2.3 Radio Communication Services -- 2.4 Radio Communication Systems -- 3 Spectrum Requirement Calculation for IMT-2000 (Hideaki Takagi) -- 3.1 Model -- 3.2 Input Parameters -- 3.3 Methodology -- 3.4 Sequel to the Story -- 4 Spectrum Requirement Calculation for IMT-Advanced (Marja Matinmikko, J 8.4 Offered Traffic per RAT Group and Radio Environment -- 8.5 Required System Capacity -- 8.6 Required Spectrum -- 9 Capacity Dimensioning to Meet Delay Percentile Requirements (Tim Irnich and Bernhard H. Walke) -- 9.1 Delay Percentile Evaluation -- 9.2 ServiceTimeDistributionin IP-BasedCommunicationSystems -- 9.3 Waiting Time Distribution in M/G/1 Queues -- 9.4 Delay DF Approximation -- 9.5 Accuracy of Gamma and H2 Approximations -- 9.6 Impact of Percentile Requirements on System Capacity -- 9.7 Conclusion -- 10 Epilog: Result ofWRC-07 (Hitoshi Yoshino) -- Appendices -- Appendix A Derivation of Formulas by Queueing Theory (Hideaki Takagi) -- A.1 Erlang-B Formula for a Loss System -- A.2 Erlang-C Formula for a Delay System -- A.3 Multidimensional Erlang-B Formula -- A.3.1 Two classes of calls with single server occupation -- A.3.2 Several classes of calls with multiple server occupation -- A.4 M/G/1 Nonpreemptive Priority Queue -- Appendix B Example Market Study Parameter Values -- Appendix C List of Acronyms and Symbols -- C.1 Acronyms -- C.2 Symbols -- Appendix D ITU-R Documents and Web Sites -- D.1 ITU-R Recommendations -- D.2 ITU-R Reports -- D.3 Other ITU-RDocuments -- D.4 WebSites -- Bibliography -- Index. |
| Record Nr. | UNINA-9910146103103321 |
| Chichester, England ; , : Wiley, , c2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Spectrum requirement planning in wireless communications : model and methodology for IMT-Advanced / / [edited by] Hideaki Takagi, Bernhard H. Walke
| Spectrum requirement planning in wireless communications : model and methodology for IMT-Advanced / / [edited by] Hideaki Takagi, Bernhard H. Walke |
| Pubbl/distr/stampa | Chichester, England ; , : Wiley, , c2008 |
| Descrizione fisica | 1 online resource (268 p.) |
| Disciplina | 621.384 |
| Altri autori (Persone) |
TakagiHideaki
WalkeBernhard |
| Collana | Wiley series on wireless communications and mobile computing |
| Soggetto topico |
Wireless communication systems - Standards
Cell phone systems - Standards Mobile communication systems - Standards Radio frequency allocation - International cooperation |
| ISBN |
1-282-34353-X
9786612343537 0-470-75894-5 0-470-75895-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
About the Series Editors -- Preface -- 1 Introduction (Bernhard H. Walke and Hitoshi Yoshino) -- 1.1 Trends inMobileCommunication -- 1.1.1 Mobileapplicationsandservices -- 1.1.2 Radio interface technologies -- 1.1.3 Standardization -- 1.2 Trends inSpectrumUsage -- 1.2.1 Physicalpropertiesof radiospectra -- 1.2.2 Spectrumallocationandidentification -- 1.3 SpectrumAllocation:Why and How -- 2 Utilization of Radio Frequencies (Hitoshi Yoshino, Naoto Matoba, Pekka Ojanen and Bernhard H. Walke) -- 2.1 SpectrumUsageOverview -- 2.2 Spectrum Management by ITU -- 2.3 Radio Communication Services -- 2.4 Radio Communication Systems -- 3 Spectrum Requirement Calculation for IMT-2000 (Hideaki Takagi) -- 3.1 Model -- 3.2 Input Parameters -- 3.3 Methodology -- 3.4 Sequel to the Story -- 4 Spectrum Requirement Calculation for IMT-Advanced (Marja Matinmikko, J 8.4 Offered Traffic per RAT Group and Radio Environment -- 8.5 Required System Capacity -- 8.6 Required Spectrum -- 9 Capacity Dimensioning to Meet Delay Percentile Requirements (Tim Irnich and Bernhard H. Walke) -- 9.1 Delay Percentile Evaluation -- 9.2 ServiceTimeDistributionin IP-BasedCommunicationSystems -- 9.3 Waiting Time Distribution in M/G/1 Queues -- 9.4 Delay DF Approximation -- 9.5 Accuracy of Gamma and H2 Approximations -- 9.6 Impact of Percentile Requirements on System Capacity -- 9.7 Conclusion -- 10 Epilog: Result ofWRC-07 (Hitoshi Yoshino) -- Appendices -- Appendix A Derivation of Formulas by Queueing Theory (Hideaki Takagi) -- A.1 Erlang-B Formula for a Loss System -- A.2 Erlang-C Formula for a Delay System -- A.3 Multidimensional Erlang-B Formula -- A.3.1 Two classes of calls with single server occupation -- A.3.2 Several classes of calls with multiple server occupation -- A.4 M/G/1 Nonpreemptive Priority Queue -- Appendix B Example Market Study Parameter Values -- Appendix C List of Acronyms and Symbols -- C.1 Acronyms -- C.2 Symbols -- Appendix D ITU-R Documents and Web Sites -- D.1 ITU-R Recommendations -- D.2 ITU-R Reports -- D.3 Other ITU-RDocuments -- D.4 WebSites -- Bibliography -- Index. |
| Record Nr. | UNINA-9910830606203321 |
| Chichester, England ; , : Wiley, , c2008 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
WCDMA [[electronic resource] ] : requirements and practical design / / edited by Rudolf Tanner and Jason Woodard
| WCDMA [[electronic resource] ] : requirements and practical design / / edited by Rudolf Tanner and Jason Woodard |
| Pubbl/distr/stampa | Chichester ; ; Hoboken, NJ, : John Wiley & Sons, c2004 |
| Descrizione fisica | 1 online resource (454 p.) |
| Disciplina | 621.3845 |
| Altri autori (Persone) |
TannerRudolf
WoodardJason P |
| Soggetto topico |
Code division multiple access
Wireless communication systems - Standards |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-280-27137-X
9786610271375 0-470-33920-9 0-470-86178-9 0-470-86179-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
WCDMA - Requirements and Practical Design; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 Evolution and Revolution of Mobile Telephony; 1.1.1 The Cellular Revolution; 1.1.2 The Growth of Cellular Technology; 1.2 The Third Generation Partnership Project; 1.2.1 3GPP Background; 1.2.2 3GPP Standardization Organization; 1.2.3 3GPP Standard Releases; 1.2.4 3GPP Standards Evolution; 1.3 3GPP Terminology; 1.4 The Journey of a Bit; 1.5 Structure of the Book; 2 RF and Baseband Processing; 2.1 Introduction; 2.2 UMTS Radio Requirements; 2.2.1 Receiver Performance Requirements
2.2.2 Transmitter Performance Requirements2.2.3 Frequency Bands and Channel Arrangements; 2.2.4 Radio Architecture Overview; 2.3 Receiver RF Design; 2.3.1 Direct Conversion Receiver; 2.3.2 Direct Conversion and Even-Order Distortion; 2.3.3 Transmit Leakage and IP2; 2.3.4 Receiver Sensitivity; 2.3.5 Adjacent Channel Selectivity; 2.3.6 Blocking and IP3; 2.3.7 Spurious Emissions and LO Leakage; 2.4 Receiver Baseband Design; 2.4.1 Baseband Demodulation Performance; 2.4.2 Pre ADC Signal Conditioning; 2.4.3 Analogue to Digital Conversion; 2.4.4 Receive Pulse Shape Filtering 2.4.5 Automatic Gain Control and Reference Point2.4.6 Additional Receiver Signal Processing Functions; 2.5 Transmitter Baseband Design; 2.5.1 Baseband Modulation; 2.5.2 Pre Digital to Analogue Conversion Signal Processing; 2.5.3 Digital to Analogue Conversion; 2.5.4 Post Conversion Processing; 2.6 Transmitter RF Design; 2.6.1 RF Up Conversion; 2.6.2 Transmitter Direct up Conversion; 2.6.3 Transmitter IF Based up Conversion; 2.6.4 Transmitter Spurious and Noise Emissions; 2.6.5 Transmitter Distortion and ACLR; 2.6.6 Key Isolation Issues; 2.6.7 Transmitter Power Control and Calibration 2.6.8 The Power Amplifier2.6.9 Power Efficiency Enhancement; 2.7 Future Trends; 3 Physical Layer Chip Rate Processing; 3.1 Introduction; 3.1.1 Code Division Multiple Access; 3.1.2 The WCDMA Air Interface; 3.1.3 Role of Chip Rate Processing; 3.2 Spreading and Scrambling; 3.2.1 Spreading; 3.2.2 Scrambling; 3.3 Physical Channels; 3.3.1 Synchronization and Channel Estimation Channels; 3.3.2 Cell Broadcast Channels; 3.3.3 Dedicated Channels; 3.3.4 Packet and Indicator Channels; 3.3.5 Overview of Physical Channel Timing; 3.4 The Receiver; 3.4.1 Overview; 3.4.2 RAKE Receiver Overview 3.4.3 RAKE Fingers3.4.4 The Combiner; 3.4.5 RAKE Architectures; 3.4.6 RAKE Control; 3.5 Cell Search; 3.5.1 P-SCH Detection; 3.5.2 S-SCH Detection; 3.5.3 Cell ID Detection; 3.5.4 P-CCPCH Transmit Diversity Status Identification; 3.6 Power Control; 3.6.1 Inner Loop Power Control; 3.6.2 Outer Loop Power Control; 3.6.3 Other Power Control Mechanisms; 3.7 Handover; 3.7.1 Introduction; 3.7.2 Soft and Softer Handover; 3.7.3 Hard Handover; 3.7.4 SSDT; 3.8 Transmit Diversity in the Downlink; 3.8.1 Background; 3.8.2 Open Loop Transmit Diversity; 3.8.3 Closed Loop Transmit Diversity 3.9 Physical Layer Procedures |
| Record Nr. | UNINA-9910145751703321 |
| Chichester ; ; Hoboken, NJ, : John Wiley & Sons, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
WCDMA [[electronic resource] ] : requirements and practical design / / edited by Rudolf Tanner and Jason Woodard
| WCDMA [[electronic resource] ] : requirements and practical design / / edited by Rudolf Tanner and Jason Woodard |
| Pubbl/distr/stampa | Chichester ; ; Hoboken, NJ, : John Wiley & Sons, c2004 |
| Descrizione fisica | 1 online resource (454 p.) |
| Disciplina | 621.3845 |
| Altri autori (Persone) |
TannerRudolf
WoodardJason P |
| Soggetto topico |
Code division multiple access
Wireless communication systems - Standards |
| ISBN |
1-280-27137-X
9786610271375 0-470-33920-9 0-470-86178-9 0-470-86179-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
WCDMA - Requirements and Practical Design; Contents; Preface; Acknowledgements; Abbreviations; 1 Introduction; 1.1 Evolution and Revolution of Mobile Telephony; 1.1.1 The Cellular Revolution; 1.1.2 The Growth of Cellular Technology; 1.2 The Third Generation Partnership Project; 1.2.1 3GPP Background; 1.2.2 3GPP Standardization Organization; 1.2.3 3GPP Standard Releases; 1.2.4 3GPP Standards Evolution; 1.3 3GPP Terminology; 1.4 The Journey of a Bit; 1.5 Structure of the Book; 2 RF and Baseband Processing; 2.1 Introduction; 2.2 UMTS Radio Requirements; 2.2.1 Receiver Performance Requirements
2.2.2 Transmitter Performance Requirements2.2.3 Frequency Bands and Channel Arrangements; 2.2.4 Radio Architecture Overview; 2.3 Receiver RF Design; 2.3.1 Direct Conversion Receiver; 2.3.2 Direct Conversion and Even-Order Distortion; 2.3.3 Transmit Leakage and IP2; 2.3.4 Receiver Sensitivity; 2.3.5 Adjacent Channel Selectivity; 2.3.6 Blocking and IP3; 2.3.7 Spurious Emissions and LO Leakage; 2.4 Receiver Baseband Design; 2.4.1 Baseband Demodulation Performance; 2.4.2 Pre ADC Signal Conditioning; 2.4.3 Analogue to Digital Conversion; 2.4.4 Receive Pulse Shape Filtering 2.4.5 Automatic Gain Control and Reference Point2.4.6 Additional Receiver Signal Processing Functions; 2.5 Transmitter Baseband Design; 2.5.1 Baseband Modulation; 2.5.2 Pre Digital to Analogue Conversion Signal Processing; 2.5.3 Digital to Analogue Conversion; 2.5.4 Post Conversion Processing; 2.6 Transmitter RF Design; 2.6.1 RF Up Conversion; 2.6.2 Transmitter Direct up Conversion; 2.6.3 Transmitter IF Based up Conversion; 2.6.4 Transmitter Spurious and Noise Emissions; 2.6.5 Transmitter Distortion and ACLR; 2.6.6 Key Isolation Issues; 2.6.7 Transmitter Power Control and Calibration 2.6.8 The Power Amplifier2.6.9 Power Efficiency Enhancement; 2.7 Future Trends; 3 Physical Layer Chip Rate Processing; 3.1 Introduction; 3.1.1 Code Division Multiple Access; 3.1.2 The WCDMA Air Interface; 3.1.3 Role of Chip Rate Processing; 3.2 Spreading and Scrambling; 3.2.1 Spreading; 3.2.2 Scrambling; 3.3 Physical Channels; 3.3.1 Synchronization and Channel Estimation Channels; 3.3.2 Cell Broadcast Channels; 3.3.3 Dedicated Channels; 3.3.4 Packet and Indicator Channels; 3.3.5 Overview of Physical Channel Timing; 3.4 The Receiver; 3.4.1 Overview; 3.4.2 RAKE Receiver Overview 3.4.3 RAKE Fingers3.4.4 The Combiner; 3.4.5 RAKE Architectures; 3.4.6 RAKE Control; 3.5 Cell Search; 3.5.1 P-SCH Detection; 3.5.2 S-SCH Detection; 3.5.3 Cell ID Detection; 3.5.4 P-CCPCH Transmit Diversity Status Identification; 3.6 Power Control; 3.6.1 Inner Loop Power Control; 3.6.2 Outer Loop Power Control; 3.6.3 Other Power Control Mechanisms; 3.7 Handover; 3.7.1 Introduction; 3.7.2 Soft and Softer Handover; 3.7.3 Hard Handover; 3.7.4 SSDT; 3.8 Transmit Diversity in the Downlink; 3.8.1 Background; 3.8.2 Open Loop Transmit Diversity; 3.8.3 Closed Loop Transmit Diversity 3.9 Physical Layer Procedures |
| Record Nr. | UNINA-9910830326903321 |
| Chichester ; ; Hoboken, NJ, : John Wiley & Sons, c2004 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
