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|a 1118818016
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|a 9781118818015
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|a 1118818032
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|a TK5103.48325
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|a Cox, Christopher
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245 |
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|a An introduction to LTE
|b LTE, LTE-advanced, SAE, VoLTE and 4G mobile communications
|c Christopher Cox
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|a LTE, LTE-advanced, SAE, VoLTE and 4G mobile communications
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|a Introduction to Long Term Evolution
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|a Long Term Evolution, Long Term Evolution-advanced, System Architecture Evolution, Voice over Long Term Evolution and 4th Generation mobile communication
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250 |
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|a Second edition
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260 |
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|a Chichester, West Sussex, United Kingdon
|b John Wiley & Sons, Inc.
|c 2014
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300 |
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|a 1 volume
|b illustrations
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|a Includes bibliographical references and index
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|a 3.2 Radio Transmission in a Mobile Cellular Network3.2.1 Multiple Access Techniques; 3.2.2 FDD and TDD Modes; 3.3 Impairments to the Received Signal; 3.3.1 Propagation Loss; 3.3.2 Noise and Interference; 3.3.3 Multipath and Fading; 3.3.4 Inter-symbol Interference; 3.4 Error Management; 3.4.1 Forward Error Correction; 3.4.2 Automatic Repeat Request; 3.4.3 Hybrid ARQ; References; Chapter 4 Orthogonal Frequency Division Multiple Access; 4.1 Principles of OFDMA; 4.1.1 Sub-carriers; 4.1.2 The OFDM Transmitter; 4.1.3 The OFDM Receiver; 4.1.4 The Fast Fourier Transform; 4.1.5 Block Diagram of OFDMA.
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|a 1.4 From UMTS to LTE1.4.1 High-Level Architecture of LTE; 1.4.2 Long-Term Evolution; 1.4.3 System Architecture Evolution; 1.4.4 LTE Voice Calls; 1.4.5 The Growth of LTE; 1.5 From LTE to LTE-Advanced; 1.5.1 The ITU Requirements for 4G; 1.5.2 Requirements of LTE-Advanced; 1.5.3 4G Communication Systems; 1.5.4 The Meaning of 4G; 1.6 The 3GPP Specifications for LTE; References; Chapter 2 System Architecture Evolution; 2.1 High-Level Architecture of LTE; 2.2 User Equipment; 2.2.1 Architecture of the UE; 2.2.2 UE Capabilities; 2.3 Evolved UMTS Terrestrial Radio Access Network
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|a 2.7.2 Default and Dedicated Bearers2.7.3 Bearer Implementation Using GTP; 2.7.4 Bearer Implementation Using GRE and PMIP; 2.7.5 Signalling Radio Bearers; 2.8 State Diagrams; 2.8.1 EPS Mobility Management; 2.8.2 EPS Connection Management; 2.8.3 Radio Resource Control; 2.9 Spectrum Allocation; References; Chapter 3 Digital Wireless Communications; 3.1 Radio Transmission and Reception; 3.1.1 Carrier Signal; 3.1.2 Modulation Techniques; 3.1.3 The Modulation Process; 3.1.4 The Demodulation Process; 3.1.5 Channel Estimation; 3.1.6 Bandwidth of the Modulated Signal
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|a Cover; Title Page; Copyright; Contents; Preface; Acknowledgements; List of Abbreviations; Chapter 1 Introduction; 1.1 Architectural Review of UMTS and GSM; 1.1.1 High-Level Architecture; 1.1.2 Architecture of the Radio Access Network; 1.1.3 Architecture of the Core Network; 1.1.4 Communication Protocols; 1.2 History of Mobile Telecommunication Systems; 1.2.1 From 1G to 3G; 1.2.2 Third Generation Systems; 1.3 The Need for LTE; 1.3.1 The Growth of Mobile Data; 1.3.2 Capacity of a Mobile Telecommunication System; 1.3.3 Increasing the System Capacity; 1.3.4 Additional Motivations
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|a 2.3.1 Architecture of the E-UTRAN2.3.2 Transport Network; 2.3.3 Small Cells and the Home eNB; 2.4 Evolved Packet Core; 2.4.1 Architecture of the EPC; 2.4.2 Roaming Architecture; 2.4.3 Network Areas; 2.4.4 Numbering, Addressing and Identification; 2.5 Communication Protocols; 2.5.1 Protocol Model; 2.5.2 Air Interface Transport Protocols; 2.5.3 Fixed Network Transport Protocols; 2.5.4 User Plane Protocols; 2.5.5 Signalling Protocols; 2.6 Example Signalling Flows; 2.6.1 Access Stratum Signalling; 2.6.2 Non-Access Stratum Signalling; 2.7 Bearer Management; 2.7.1 The EPS Bearer
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|a Long-Term Evolution (Telecommunications) / fast
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|a Mobile communication systems / Standards / fast
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|a Long-Term Evolution (Telecommunications) / http://id.loc.gov/authorities/subjects/sh2010010510
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|a Mobile communication systems / Standards
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|a Technologie d'évolution à long terme (Norme)
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|a TECHNOLOGY & ENGINEERING / Mechanical / bisacsh
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|a Radiocommunications mobiles / Normes
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|a eng
|2 ISO 639-2
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|b OREILLY
|a O'Reilly
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|z 9781118818039
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|u https://learning.oreilly.com/library/view/~/9781118818015/?ar
|x Verlag
|3 Volltext
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|a 384
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|a 620
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|a 621.3845
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|a Following on from the successful first edition (March 2012), this book gives a clear explanation of what LTE does and how it works. The content is expressed at a systems level, offering less technically experienced readers the opportunity to grasp the key factors which make LTE the hot topic amongst vendors and operators across the globe. Assuming no more than a basic knowledge of mobile telecommunication systems, the reader is not expected to already understand complex mathematical operations. This second edition both updates and introduces new material for the current state of the indust
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