London, [England] ; ; Hoboken, New Jersey : , : ISTE Limited : , : John Wiley & Sons, , 2014

©2014

1-119-04350-6

1-119-04352-2

1 online resource (308 p.)

Networks and Telecommunications Series

621.38456

Cell phone systems - Standards

Long-Term Evolution (Telecommunications)

Mobile communication systems - Standards

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Cover Page; Half-Title Page; Title Page; Copyright Page; Contents; List of Figures; List of Tables; Introduction; I.1. Mobile communication systems: 0G, 1G, 2G, 3G, 4G and 5G; I.1.1. Rationale; I.1.2. Short history of mobile communications, milestones; I.1.2.1. 0G; I.1.2.2. 1G; I.1.2.3. 2G; I.1.2.4. 3G, the need for fast data transmission; I.1.2.5. 4G; I.1.2.6. 5G; I.2. High speed broadband mobile services: what the customers are waiting for; I.2.1. Customers' expectancies; I.2.2. Advantages of LTE for fulfilling these expectancies

I.2.3. How the advent of smartphones impacts customers' expectations1 LTE Standards and Architecture; 1.1. 3rd generation partnership project (3GPP); 1.1.1. 3GPP history; 1.1.2. 3GPP, the current organization; 1.1.3. 3GPP releases; 1.2. LTE - numbering and addressing; 1.2.1. The network IDs; 1.2.2. The MME IDs; 1.2.3. The tracking area IDs; 1.2.4. The Cell IDs; 1.2.5. The mobile equipment ID; 1.3. LTE architecture overview; 1.3.1. Overall high level description of LTE; 1.3.1.1. LTE network elements; 1.3.1.2. LTE connection with outside communication networks; 1.3.1.3. LTE access network

1.3.1.4. LTE mobile terminals1.3.1.5. USIM; 1.3.2. LTE performance; 1.3.3. LTE - QoS architecture; 1.3.4. FDD, TDD, LTE advanced; 1.3.5.

Frequencies for LTE; 1.3.5.1. Frequency allocation for LTE/IMT in ITU world radio conferences (WRCs); 1.3.6. Basic parameters of LTE; 1.4. Radio access subsystem: eUTRAN (also called eUTRA); 1.4.1. LTE visualization tool from Rohde and Schwartz; 1.4.2. eUTRAN characteristics; 1.4.3. eUTRAN interfaces; 1.4.3.1. X2 and S1 interface implementation; 1.4.3.2. Overall architecture [3GPP TS 36.300]; 1.4.3.2.1. eNB functionality; 1.4.3.2.2. MME functionality

1.4.3.2.3. S-GW functionality1.4.4. Signaling on the radio path; 1.4.4.1. User plane; 1.4.4.2. Control plane; 1.4.4.2.1. Physical layer (layer 1); 1.4.4.2.2. Medium access layer (MAC); 1.4.4.2.3. Radio link control (RLC); 1.4.4.2.4. Radio resource control (RRC); 1.4.4.2.5. Packet data convergence control (PDCP); 1.4.4.2.6. Non-access stratum (NAS) protocols; 1.4.4.3. Channels; 1.4.4.3.1. Physical control format indicator channel; 1.4.5. Physical layer; 1.4.5.1. Downlink physical channel; 1.4.5.2. Uplink physical channel; 1.4.6. RLC and MAC layer; 1.4.6.1. Radio resource management

1.4.6.2. S1 interface1.4.7. Dynamic radio resource management in LTE; 1.4.8. MIMO; 1.4.9. Macrocells, microcells and femtocells; 1.5. Core network; 1.5.1. LTE network elements; 1.5.2. LTE interfaces [TS 23.401]; 1.5.2.1. Control plane interfaces; 1.5.2.2. User Plane interfaces; 1.5.3. Functional split between the E-UTRAN and the EPC; 1.5.4. S1 interface-based handover; 1.5.4.1. Successful handover; 1.5.4.2. S1-based handover reject scenario; 1.5.4.3. S1-based handover cancel scenario; 1.6. LTE - roaming architecture; 1.6.1. LTE network mobility management; 1.7. SIM for communications privacy

1.7.1. SIM

LTE (long-term evolution) mobile communication system is offering high bitrates in IP communications. <i>Fourth Generation Mobile Communications/LTE</i> describes various aspects of LTE as well as the change of paradigm, which it is bringing to mobile communications. The book is a vital resource for the entire mobile communication community. Coverage includes: LTE standards and architecture, Radio access sub-system, Signaling on the radio path, Macrocells, microcells, femtocells, SIM card and security, SIM card description, GPS driven applications, The Apple model, and much more more.