LTE Fundamentals
4 days training event
6100-3014
Course Outlines
LTE Overview
What is LTE?
LTE Standardization
3rd generation partnership project (3GPP)
3GPP releases
3GPP LTE release and beyond (LTE-advanced)
IMT-advanced process
End User LTE Services and Applications
LTE Architecture Overview
Overall high level description of LTE
LTE performance
FDD, TDD, LTE advanced
Frequencies for LTE
Basic parameters of LTE
Radio access subsystem: E-UTRAN (also called EUTRA) E-UTRAN characteristics
E-UTRAN interfaces
Macrocells, microcells and femtocells
Core network
LTE network elements
Functional split between the E-UTRAN and the EPC
LTE – roaming architecture
LTE network mobility management
Role of IMS in LTE/EPC
Voice over LTE (VoLTE)
Video over LTE (ViLTE)
SIM, USIM and ISIM
LTE Network Deployment considerations
LTE Radio Network Considerations
Transport Network Considerations
LTE/EPC Core Network Considerations
LTE Radio Technology
E-UTRAN (Evolved UTRAN)
What is OFDM/OFDMA?
OFDM (Orthogonal Frequency Division Multiplexing)
SC-FDMA (Single-Carrier Frequency Division Multiple Access)
FDD and TDD
OFDMA advantages
LTE channel: bandwidths and characteristics
OFDM applied to LTE
MIMO (Multiple Input Multiple Output)
General facts behind MIMO
LTE Flat IP Core Network
Fixed mobile convergence
IP multimedia subsystem (IMS)
General description of IMS
Session Initiation Protocol (SIP)
IMS components and interfaces
Evolved packet system in GPP standards
Policy and charging rules function (PCRF)
Circuit-switched fallback (CSFB)
Voice over LTE (VoLTE)
LTE Protocols and Procedures
LTE RAN protocols and procedures
Mobility in LTE
LTE Systems radio access network architecture
QoS in LTE
Principles of LTE security
LTE EPC security
SIM card physical interface
TRAINING LOCATIONS
أماكن ومقرات التدريب حول العالم
Dubai
Kuala Lumpur
Tunis
Istanbul
Amman
Sharm El Sheikh
Ottawa
Paris