04660nam 2200601 450 991082014920332120200520144314.01-119-00756-91-119-00755-01-119-00754-2(CKB)4330000000007981(EBL)4648734(MiAaPQ)EBC4648734(Au-PeEL)EBL4648734(CaPaEBR)ebr11249698(CaONFJC)MIL949817(OCoLC)957437246(PPN)198603363(EXLCZ)99433000000000798120160902h20162016 uy 0engur|n|---|||||rdacontentrdamediardacarrierMobile and wireless networksVolume 2 /Khaldoun Al Agha, Guy Pujolle, Tara Ali-YahiyaLondon, England ;Hoboken, New Jersey :iSTE :Wiley,2016.©20161 online resource (356 p.)Description based upon print version of record.1-84821-714-5 Includes bibliographical references at the end of each chapters and index.Cover ; Title Page ; Copyright; Contents; Preface; Acronyms ; 1. Introduction to Mobile and Networks; 1.1. Mobile and wireless generation networks; 1.1.1. First generation mobile technology: 1G; 1.1.2. Second generation mobile technology: 2G; 1.1.3. Third generation mobile technology: 3G; 1.1.4. Fourth generation mobile technology: 4G; 1.1.5. Fifth generation mobile technology: 5G; 1.2. IEEE technologies; 1.2.1. IEEE 802.15: WPAN; 1.2.2. IEEE 802.11: WLAN; 1.2.3. IEEE 802.16: WMAN; 1.2.4. IEEE 802.21: MIHS; 1.2.5. IEEE 802.22: WRAN; 1.3. Conclusion; 1.4. Bibliography ; 1.4.1. Standards1.4.2. Selected bibliography1.4.3. Websites; 2. Mobile Networks; 2.1. Cellular network; 2.1.1. Radio interface; 2.1.2 Cell design; 2.1.3 Traffic engineering; 2.2. Principles of cellular network functionalities; 2.3. 1G networks; 2.4. 2G networks; 2.5. 3G networks; 2.6. 4G networks; 2.7. 5G networks; 2.8. Bibliography; 3. Long-Term Evolution; 3.1. Relevant features of LTE; 3.2. Network architecture and protocols; 3.2.1 Architecture reference model; 3.2.2 Functional description of a LTE network; 3.2.3 System architecture evolution; 3.2.4 Reference points; 3.3. Control and user planes3.3.1. User plane3.3.2. GPRS tunneling protocol; 3.3.3. Control plane; 3.4. Multimedia broadcast and multicast service; 3.5. Stream Control Transmission Protocol; 3.6. Network discovery and selection; 3.7. Radio resource management; 3.8. Authentication and authorization; 3.8.1. User authentication, key agreement and key generation; 3.8.2 Signaling and user-plane security; 3.9. Fundamentals of the MAC layer in LTE; 3.9.1. Traffic classes and quality of service; 3.9.2. Mobility; 3.9.3. Resource scheduling algorithms; 3.10. Fundamentals of the LTE physical layer3.10.1. Slot and frame structure in LTE OFDMA3.10.2. Reference signals; 3.11. Conclusion; 3.12. Bibliography; 3.12.1. Standards; 3.12.2. Selected bibliography; 4. Long-Term Evolution Advanced; 4.1. HetNet in LTE Advanced; 4.2. Small cell concepts; 4.2.1. Picocell; 4.2.2. Femtocells; 4.2.3. Relays; 4.3. Femtocell and macrocell integration architecture; 4.4. Picocell and macrocell integration architecture; 4.5. Interference mitigation in heterogeneous networks; 4.5.1. Interference mitigation in the context of two-tier macrofemtocells; 4.5.2. Frequency spectral assignment4.6. Interference mitigation in the context of two-tiermacropicocells4.7. Coordinated multi-point transmission/reception; 4.8. Carrier aggregation; 4.9. LTE Advanced evolution toward 5G; 4.10. Bibliography; 4.10.1. Standards; 4.10.2. Selected bibliography; 4.10.3. Websites; 5. 5G; 5.1. From LTE Advanced to 5G: the big transition; 5.1.1. D2D communication; 5.1.2. Green activities saving energy; 5.1.3. LTE-WiFi integration for traffic offloading; 5.1.4. Vehicular communication; 5.2. Some characteristics envisioned for 5G; 5.2.1. Massive capacity support; 5.2.2. Ubiquitous communication support5.2.3. Improvement in radio characteristicsWireless communication systemsMobile computingWireless communication systems.Mobile computing.621.384Al Agha Khaldoun1636074Pujolle GuyYahiha TaraMiAaPQMiAaPQMiAaPQBOOK9910820149203321Mobile and wireless networks4086478UNINA