1.

Record Nr.

UNINA9910135035503321

Autore

Al Agha Khaldoun

Titolo

Mobile and wireless networks . Volume 2 / / Khaldoun Al Agha, Guy Pujolle, Tara Ali-Yahiya

Pubbl/distr/stampa

London, England ; ; Hoboken, New Jersey : , : iSTE : , : Wiley, , 2016

©2016

ISBN

1-119-00756-9

1-119-00755-0

1-119-00754-2

Descrizione fisica

1 online resource (356 p.)

Disciplina

621.384

Soggetti

Wireless communication systems

Mobile computing

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references at the end of each chapters and index.

Nota di contenuto

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. Standards

1.4.2. 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 planes


3.3.1. 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 layer

3.10.1. 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 assignment

4.6. 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 support

5.2.3. Improvement in radio characteristics