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LTE (Long Term Evolution) is commonly marketed as 4G. LTE and LTE Advanced have been recognized by ITU-R and ITU-T (International Telecommunications Union - Telecommunications) as the principal solution for the future mobile communication networks standards. They are thus the framework of what the marketing calls 4G and possibly also 5G. This book describes various aspects of LTE as well as the change of paradigm, which it is bringing to mobile communications, focusing on LTE standards and architecture, OFDMA, the Full IP Core Network and LTE security.
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LTE (Long Term Evolution) is commonly marketed as 4G. LTE and LTE Advanced have been recognized by ITU-R and ITU-T (International Telecommunications Union - Telecommunications) as the principal solution for the future mobile communication networks standards. They are thus the framework of what the marketing calls 4G and possibly also 5G. This book describes various aspects of LTE as well as the change of paradigm, which it is bringing to mobile communications, focusing on LTE standards and architecture, OFDMA, the Full IP Core Network and LTE security.
Produktdetails
- Produktdetails
- Verlag: John Wiley & Sons
- Seitenzahl: 236
- Erscheinungstermin: 25. September 2014
- Englisch
- ISBN-13: 9781119043980
- Artikelnr.: 41693669
- Verlag: John Wiley & Sons
- Seitenzahl: 236
- Erscheinungstermin: 25. September 2014
- Englisch
- ISBN-13: 9781119043980
- Artikelnr.: 41693669
Jean-Gabriel Remy is Professor at the Catholic University of Paris (ISEP) in France. He was Chief Scientist at SFR for more than 10 years. In that position, he participated in the creation of 3GPP, actively participating in it until 2010. He is currently an ingénieur général for the French Ministry of Finance in Paris. Charlotte Letamendia works for a French company that operates in the fields of broadband (broadband and residential terminals), management of documents (printing terminals, software and solutions, digital production workflow), digital set-top boxes (satellite, cable, terrestrial and IP TV) and telecom and energy (M2M, telecommunications infrastructure, smartgrids and metering).
LIST OF FIGURES ix LIST OF TABLES xiii INTRODUCTION xv CHAPTER 1. LTE ROLL-OUT 1 1.1. LTE air interface superior features 1 1.1.1. Orthogonal frequency division multiplexing access (OFDMA)for the downlink 1 1.1.2. Single-carrier frequency division multiple access foruplink 1 1.1.3. Multiple-input multiple-output (MIMO) transmission 2 1.1.4. Support for component carrier 10 1.1.5. Relaying 11 1.2. LTE FDD, TDD and TD-LTE duplex schemes 13 1.2.1. Duplex schemes 14 1.2.2. LTE TDD/TD-LTE and TD-SCDMA 17 1.2.3. FDD LTE frequency band allocations 18 1.2.4. Allocated frequency bands in Europe, multiband operation19 1.2.5. TDD LTE frequency band allocations 21 1.3. LTE UE category and class definitions 22 1.3.1. LTE UE category rationale 22 1.3.2. LTE UE category definitions 23 1.4. Interferences in OFDMA 25 1.5. Radio propagation software 35 1.6. Macrocells, microcells and femtocells 37 1.6.1. Macrocells 37 1.6.2. Femtocells 38 1.6.3. Remote radio heads 40 1.6.4. Heterogeneous network 40 1.7. Backhaul 40 1.7.1. The unified backhau l41 1.7.2. Future of Ethernet backhau l42 1.7.3. UMTS IP NodeB transport over converged packet network44 1.7.4. LTE/EPC transport over converged packet network 49 1.8. Frequency planning 66 1.9. Compatibility with DTT 67 1.10. Health effects 68 1.10.1. Physical facts 69 1.10.2. Specific energy absorption rate 72 1.10.3. International Commission on Non-Ionizing RadiationProtection 73 1.10.4. Measurements of SAR, experimental studies 75 1.10.5. Comparison of SAR caused by different devices 77 1.10.6. Safety limits - towers 80 1.11. Appendix 1: radio dimensioning and planning exercises(courtesy of Emmanuelle Vivier) 81 1.12. Appendix 2: relaying the radio links 84 1.13. Appendix 3: LTE-Advanced: requirements 88 CHAPTER 2. OPERATION AND MAINTENANCE 91 2.1. Introduction 91 2.2. Load tests 93 2.2.1. Dimensioning of network elements to smoothly carry thetraffic 93 2.2.2. Dimensioning of signaling channels 94 2.2.3. Load tests on signaling channels 101 2.3. Use of protocol analyzer: example of MAPS system 102 2.3.1. Background 102 2.3.2. Overview 102 2.3.3. Main features 103 2.3.4. Supported protocol standards 104 2.3.5. Test configuration 105 2.3.6. Call generation 106 2.3.7. Call reception 106 2.3.8. Bulk call simulation 108 2.3.9. Customization of call flow and messages usingpreprocessing tools 108 2.3.10. Call flow and script execution control 109 2.3.11. Call statistics, events, link status 109 2.4. Appendix: TS of SA5 working group of 3GPP TSG SA 110 CHAPTER 3. OTT SERVICES 151 3.1. Introduction 151 3.1.1. Impact of the technology 151 3.1.2. OTT applications 153 3.1.3. OTT over LTE 153 3.1.4. New services opened by the high-speed Internetgeneralization 154 3.2. Technical view of OTT services 155 3.2.1. OTT technology 155 3.2.2. Testing OTT performances 161 3.3. OTT services challenging TV telecommunication services162 3.3.1. Instant messaging business 163 3.3.2. Television and video OTT services 165 3.3.3. Apple TV (source: Wikipedia) 167 3.3.4. Netflix, the 2014 OTT champion 169 3.3.5. "OTT services" provided by the networkoperators 170 3.3.6. The carrier: neutral or responsible? 171 3.4. OTT services other than television 173 3.4.1. Dedicated services 173 3.4.2. LBS: positioning and GPS-driven applications 174 3.5. Open applications versus verticalization 177 3.5.1. The Apple model 177 CONCLUSION 179 BIBLIOGRAPHY 191 INDEX 193
LIST OF FIGURES ix LIST OF TABLES xiii INTRODUCTION xv CHAPTER 1. LTE ROLL-OUT 1 1.1. LTE air interface superior features 1 1.1.1. Orthogonal frequency division multiplexing access (OFDMA)for the downlink 1 1.1.2. Single-carrier frequency division multiple access foruplink 1 1.1.3. Multiple-input multiple-output (MIMO) transmission 2 1.1.4. Support for component carrier 10 1.1.5. Relaying 11 1.2. LTE FDD, TDD and TD-LTE duplex schemes 13 1.2.1. Duplex schemes 14 1.2.2. LTE TDD/TD-LTE and TD-SCDMA 17 1.2.3. FDD LTE frequency band allocations 18 1.2.4. Allocated frequency bands in Europe, multiband operation19 1.2.5. TDD LTE frequency band allocations 21 1.3. LTE UE category and class definitions 22 1.3.1. LTE UE category rationale 22 1.3.2. LTE UE category definitions 23 1.4. Interferences in OFDMA 25 1.5. Radio propagation software 35 1.6. Macrocells, microcells and femtocells 37 1.6.1. Macrocells 37 1.6.2. Femtocells 38 1.6.3. Remote radio heads 40 1.6.4. Heterogeneous network 40 1.7. Backhaul 40 1.7.1. The unified backhau l41 1.7.2. Future of Ethernet backhau l42 1.7.3. UMTS IP NodeB transport over converged packet network44 1.7.4. LTE/EPC transport over converged packet network 49 1.8. Frequency planning 66 1.9. Compatibility with DTT 67 1.10. Health effects 68 1.10.1. Physical facts 69 1.10.2. Specific energy absorption rate 72 1.10.3. International Commission on Non-Ionizing RadiationProtection 73 1.10.4. Measurements of SAR, experimental studies 75 1.10.5. Comparison of SAR caused by different devices 77 1.10.6. Safety limits - towers 80 1.11. Appendix 1: radio dimensioning and planning exercises(courtesy of Emmanuelle Vivier) 81 1.12. Appendix 2: relaying the radio links 84 1.13. Appendix 3: LTE-Advanced: requirements 88 CHAPTER 2. OPERATION AND MAINTENANCE 91 2.1. Introduction 91 2.2. Load tests 93 2.2.1. Dimensioning of network elements to smoothly carry thetraffic 93 2.2.2. Dimensioning of signaling channels 94 2.2.3. Load tests on signaling channels 101 2.3. Use of protocol analyzer: example of MAPS system 102 2.3.1. Background 102 2.3.2. Overview 102 2.3.3. Main features 103 2.3.4. Supported protocol standards 104 2.3.5. Test configuration 105 2.3.6. Call generation 106 2.3.7. Call reception 106 2.3.8. Bulk call simulation 108 2.3.9. Customization of call flow and messages usingpreprocessing tools 108 2.3.10. Call flow and script execution control 109 2.3.11. Call statistics, events, link status 109 2.4. Appendix: TS of SA5 working group of 3GPP TSG SA 110 CHAPTER 3. OTT SERVICES 151 3.1. Introduction 151 3.1.1. Impact of the technology 151 3.1.2. OTT applications 153 3.1.3. OTT over LTE 153 3.1.4. New services opened by the high-speed Internetgeneralization 154 3.2. Technical view of OTT services 155 3.2.1. OTT technology 155 3.2.2. Testing OTT performances 161 3.3. OTT services challenging TV telecommunication services162 3.3.1. Instant messaging business 163 3.3.2. Television and video OTT services 165 3.3.3. Apple TV (source: Wikipedia) 167 3.3.4. Netflix, the 2014 OTT champion 169 3.3.5. "OTT services" provided by the networkoperators 170 3.3.6. The carrier: neutral or responsible? 171 3.4. OTT services other than television 173 3.4.1. Dedicated services 173 3.4.2. LBS: positioning and GPS-driven applications 174 3.5. Open applications versus verticalization 177 3.5.1. The Apple model 177 CONCLUSION 179 BIBLIOGRAPHY 191 INDEX 193