Evolution of LTE to 5G Wireless Training

Evolution of LTE to 5G Wireless Training

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Introduction:

Evolution of LTE to 5G Wireless Training Course in the Nutshell

Evolution of LTE to 5G Wireless, updated periodically, discusses the requirements envisioned for the 5th Generation (5G) Wireless Communications as well as the technical specifications being considered for 5G. For those intimately familiar with LTE, a shorter course with an abbreviated LTE overview replacing the first two sections of the course is available. A shorter, less technical version of this Evolution of LTE to 5G Wireless Training course aimed at a nontechnical audience is also offered.

Duration: 5 days

Evolution of LTE to 5G Wireless Training
 
Evolution of LTE to 5G Wireless TrainingRelated Courses
 

Customize it:

● If you are familiar with some aspects of this Evolution of LTE to 5G Wireless Training course, we can omit or shorten their discussion.
● We can adjust the emphasis placed on the various topics or build the Evolution of LTE to 5G Wireless Training course around the mix of technologies of interest to you (including technologies other than those included in this outline).
● If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the Evolution of LTE to 5G Wireless Training course in manner understandable to lay audiences.

Prerequisite:

● Good knowledge of the current wireless technologies including at least a high-level understanding of the LTE/LTE-A standards

Audience/Target Group:

The target audience for this Evolution of LTE to 5G Wireless Training course is defined here:

● Planners, strategists, and others interested in an advance look at the factors shaping the evolution of 4G LTE to 5G wireless and the technologies likely to be included in 5G.

Evolution of LTE to 5G Wireless Training – Course Outlines:

Evolution of LTE to 5G Wireless:  Introduction

History and Standardization of 4G Communications Systems
ITU Requirements and Technologies
IMT-2000 Requirements and Technologies
IMT-Advanced Requirements and Technologies
3GPP LTE Standardization Process and Status

Review of LTE and LTE-Advanced

LTE Network Architecture and Components
UE
eNB
MME, S-GW, P-GW, PCRF, HSS
LTE and LTE-Advanced Air Interface Basics
LTE Physical Layer
LTE RRC and RLC Layers
LTE Network Entry
LTE-Advanced Specifications
–LTE Release 11 Features
–LTE Release 12 Features
–LTE Release 13 Features
–LTE Release 14 Features

5G Wireless Requirements

ITU IMT 2020
Process and Timeline
ITU 5G Use Cases
IMT Technologies between 6 and 100 GHz
5G NGMN Requirements
–User Experience
–System Performance
–Device Requirements
–5G Business Models
–5G Enhanced Services
–Network Operation, Deployment, and Management
METIS 5G Generic Services and Requirements
–xMBB: extreme Mobile BroadBand
–uMTC: ultrareliable Machine Type Communication
–mMTC: massive Machine Type Communication
5G Objectives
–Capacity Increase
–Variety of Services and Applications
–Variety of Device Types
–Saving Energy

5G Wireless Technology Drivers

RAN Sharing
Green Communications
Network Densification
Small Cell Development
Hetnet Development
Millimeter Wave (mWave), High Frequencies
Massive MIMO
–5G Spectrum
5G Frequency Bands
Sub-6GHz
cmW
mmW
Spectrum Management
Spectrum Sharing
Dynamic Spectrum Access
Cognitive Radio
Software Defined Networking (SDN)
Cloud RAN
–Device to Device (D2D) Communications
–Internet of Things (IOT)
Machine to Machine (M2M)
–Backhaul Development
–Device Centric Architecture
–3GPP LTE 5G Network Services
Massive Internet of Things (IOT)
Critical Communications
Enhanced Mobile Broadband
Network Operation

5G Wireless: The Technology

5G: Channel Model
–Different Frequency Bands
–Propagation Models
5G: New Radio
–Spectral Usage Techniques
–Non-Orthogonal, Asynchronous Waveforms
–New PHY Layer, Modulations, and Coding
–Radio Resource Management
–Universal Filtered Multicarrier (UFMC)
–Filtered OFDM (f-OFDM)
–New Multiple Access Systems
–Generalized Frequency Division Multiplex (GFDM)
–Sparse Code Multiple Access (SCMA)
–Non-orthogonal Multiple Access (NOMA)
–Resource Spread Multiple Access (RSMA)
5G: New Core
–Collaborative Communications Protocols
–Software Defined Air Interface
5G: Advanced Features
–Advanced MIMO and Beamforming
–3D Beamforming and Diversity
–Interference Management
–Millimeter-Wave Beamforming
–Cognitive Radio Small-Cells

LTE to 5G Wireless: Course Recap, Discussion, and Course Evaluation

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