Mobile Broadband Transformation Training | 3GPP 5G Training

Mobile Broadband Transformation Training | 3GPP 5G Training

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Mobile Broadband Transformation Training | 3GPP 5G Training Course Description

Mobile Broadband Transformation Training | 3GPP 5G Training covers 3GPP technologies and procedures for LTE TO 5G mobile broadband evolution. Learn about 3GPP technology enhancements and expansion of the LTE platform supporting next generation cellular technology and mobile broadband transformation, ITU’s 5G standards (IMT2020). Learn about 3GPP enhancements and enablers supporting 5G services and RAN, transport and core networks.

Duration: 2 days

Mobile Broadband Transformation Training | 3GPP 5G Training
Mobile Broadband Transformation Training | 3GPP 5G TrainingRelated Courses

Customize it:

● If you are familiar with some aspects of this Mobile Broadband Transformation Training | 3GPP 5G Training course, we can omit or shorten their discussion.
● We can adjust the emphasis placed on the various topics or build the Mobile Broadband Transformation Training | 3GPP 5G 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 Mobile Broadband Transformation Training | 3GPP 5G Training course in manner understandable to lay audiences.


After completing this Mobile Broadband Transformation Training | 3GPP 5G Training course, attendees will be able to:

-List Mobile Broadband transformation and LTE / LTE-Advanced and evolution to
-Illustrate Next Generation LTE, LTE-Advanced, LTE-Advanced Pro and 5G System Architecture
-Illustrate the architecture of 5G RAN, transport and core networks
-List the key 3GPP technology enhancements and enablers towards 5G
-Describe the benefits of Proximity Services, C-RAN, Internet of Things (IoT), SDN and NFV
-Describe the benefits of LTE-WiFi Radio Level Aggregation (LWA)
-Describe New LTE Access Scheme: Narrowband Internet of Things (NB-IoT)
-Explain LTE Broadcast / Multicast techniques and future Terrestrial TV
-Describe Vehicle to Vehicle (V2V) Services, V2X Services and Discovery and Device to Device (D2D)
-Illustrate architecture enhancements for eMTC and NB-IoT
-List 5G deployment options including massive Machine Type Communication, and massive IoT

Mobile Broadband Transformation Training | 3GPP 5G Training – Course Outlines:

Introduction to Mobile Broadband Transformation

Evolution of Mobile Broadband 5G Data Drivers
Mobile Broadband Application Development
Mobile Broadband Application Innovation
Internet of Things (IoT) and Machine-to-Machine (M2M)
Emerging Capabilities for Internet of Things
Cloud Computing
Emerging of Network Function Virtualization (NFV) and Software Defined Networking (SDN)
HD Video Streaming
4K/8K and 3D TV
Global Mobile Adoption
Critical Voice Support and VoLTE
Rich Communications Suite (RCS)
LTE Features for Public Safety (FirstNet)
Spectrum Sharing
FCC cell Siting Agreement
Exemption from the Section 106 review process

Introduction to LTE / LTE-Advanced

OFDMA and SC-FDMA Radio Access Technology
OFDMA and Scheduling
LTE Smart Antennas
LTE-Advanced Antenna Technologies
Overview LTE-Advanced: Carrier Aggregation, Advanced MIMO, HetNet etc.
Principles of Carrier Aggregation
Coordinated Multi Point (CoMP)
User-Plane Congestion Management (UPCON)
Network-Assisted Interference Cancellation and Suppression (NAICS)
Multi-User Superposition Transmission (MUST)
Carrier Aggregation (CA) to Dual Connectivity (DC)
Evolution of CA (FDD/TDD CA, CA with up to 32 carriers)
Overview of the DC Concept and Split of Functionality
Control Plane and User Plane Architecture
TDD Harmonization
LTE-Advanced Relays
Proximity Services (Device-to-Device)
Heterogeneous Networks and Small Cells
Enhanced Intercell Interference Coordination
Dual Connectivity
Cloud Radio-Access Network (RAN) and Network Virtualization
Unlicensed Spectrum Integration
Dual Stack Mobile IPv6 and Proxy Mobile IPv6
Integration Technologies (SIPTO, LIPA, IFOM, MAPCON)
Evolved Packet Core (EPC)
Self-Organizing Networks (SON)
IP Multimedia Subsystem (IMS)
ViLTE (Video over LTE)

LTE Unlicensed / LTE License Assisted Access (LAA)

Unlicensed versus Licensed Spectrum
Licensed Assisted Access (LAA) Techniques and Concepts
Listen-Before-Talk and Channel Access Procedures
Scheduling Principles and Hybrid ARQ for LAA
Radio Resource Management (Carrier Identification, Selection etc.)

LTE-WiFi Radio Level Aggregation (LWA)

LWA Architecture, Protocol and Bearer Types
LTE/WLAN Aggregation (LWA) concepts
Mobility Principles and Network Procedures
Comparison LAA versus LWA
LTE Broadcast / Multicast Techniques and Future Terrestrial TV

Evolve Packet Core (EPC) Evolution

Architecture and Terminology
Principles, Entities and Interfaces
Deployment Options and Roaming Architectures
Interworking with 3GPP and Non-3GPP Technologies
Cloud computing, SDN and NFV
Cloud RAN (C-RAN), vEPC and vIMS

Discovery and Device to Device (D2D) for Proximity Services

D2D Synchronization, Direct Discovery and Direct Communication
D2D Deployment Scenarios and Uplink Access Scheme
ProSe Configuration, UE Capabilities and Terminal Types
Details for Sidelink Physical Channel and Transport Channel
Configuration and Scheduling Procedures
UE-to-Network Relay
Proximity Service Architecture and Protocol
ProSe Reference Architecture and ProSe Functions
ProSe Protocol and Procedures for Discovery
ProSe Protocol and Procedures for Direct Communication and Relay

Vehicle to Vehicle (V2V) Services

V2X Applications (V2V, V2P, V2I etc), Scenarios and Requirements
V2X Spectrum and Coexistences with other Technologies (e.g. DSRC)
Sidelink Scheduling Enhancements for V2V Applications
Enhancements of Semi-Persistent Scheduling and QoS
Geo Location Aware Broadcast and Scheduling
Multi-Carrier-, Multi-Operator Support and Roaming

Architecture Enhancements for V2X Services

V2X Reference Architecture
Unicast and Multicast V2X Transmission
Central V2X Server / eMBMS System
eNB Type Road Side Unit (Local MBMS Entity)
Service Authorization and Geo-Location Handling
V2V and V2X Protocol

LTE Machine Type Communication for Internet of Things (IoT)

Overview M2M and IoT Systems
Low Complexity MTC UE Cat-0
Extended DRX and UE Power Saving Mode
4 MHz Low Bandwidth Enhanced MTC System
Enhancements of Physical Channels to support eMTC

New LTE Access Scheme: Narrowband Internet of Things (NB-IoT)

Target Scenarios: In-band, Guard Band and Stand-Alone
Downlink- and Uplink Physical Layer Access Schemes for NB-IoT
Overview of LTE System Enhancements to support NB-IoT
Procedure for System Information, Random Access, Scheduling
Overview of Functionality for MTC/IoT in Different Releases
Comparison of MTC/IoT Terminal Capabilities

Architecture Enhancements for eMTC and NB-IoT

Introduction Lightweight NB-IoT Architecture
Key Features and Functions
Options for Small Data Transfer (IP and Non-IP Data and SMS)
Control Plane Solutions and Attach without Bearer Activation
User Plane Optimization by RRC Suspension/Resumption

5G Overview

5G Activities and Interest Groups (5GPPP, 5G Forum, 5GMF, IMT-2020 PG, …)
5G Standardization Timeline (NGMN, ITU-R, 3GPP, …)
5G Use Cases
Technology Options
5G Architecture
Device Requirements
Enhanced Services
New Business Models
5G Design Principles
Radio and Core Network
Operations & Management (O&M)
Frequency Bands and Spectrum Management Options
5G Radio Access, Waveform and Key Principles
Scheduling Format and Self-Contained Transmission
Air Interface Differences (eMBB, mMTC and URLLC)
LTE-Assisted versus Stand-alone 5G Deployment
NR standard (3GPP RAN)

5G – Next Generation System Architecture

5G System Requirements and System Architecture
Architecture Evolution from EPC and Multi-RAT Support
User Plane and Control Plane Architecture
Dedicated Core Network (eMBB, mMTC and URLLC) and Network Slicing
User Mobility and RRC / NAS State Model
Status of the NGCN standard (3GPP SA)

3GPP Standardization for 5G

4G to 5G Evolution
Key ingredient for mobile broadband evolution in both 4G and 5G networks
Smalls Cells and Heterogeneous Networks (HetNet)
Neutral-Host Small Cells
Unlicensed Spectrum Integration
Smart Antennas and MIMO
5G Use Cases (3GPP)
LTE and LTE-A Evolution to 5G Path
LTE and LTE-A Evolution Technologies for 5G
Expanding 5G Use Cases (3GPP and ITU)

The 3rd Generation Partnership Project (3GPP) Standardization towards 5G

LTE-Advanced, Rel-13
Active Antenna Systems (AAS)
Multi-Input Multi-Output (MIMO)
Self-Organizing Network (SON) aspects
Enhanced signaling
Coordinated Multi-Point Transmission and Reception (CoMP)
Carrier Aggregation (CA) enhancements
Support of up to 32 component carriers and Dual Connectivity (DC) enhancements
Improvements in Radio Access Network (RAN) sharing
Machine Type Communication (MTC)
Proximity Services (ProSe)
Licensed Assisted Access for LTE (LAA-LTE)
LTE Wireless Local Area Network (WLAN) Aggregation (LWA)
LTE radio bearer and Downlink (DL) Multi-User Superposition Transmission (MUST)
Wi-Fi integration enhancements
Network-Based IP Flow Mobility (NBIFOM) enhancements
Voice and video services over Wi-Fi
Mission Critical Enhancements
Mission Critical Voice over LTE for public safety
Mission Critical Push-to-Talk (MCPTT) over LTE for public safety
Dedicated Core (DECOR)
Monitoring Enhancement (MONTE) for MTC services
Enhancements to MBMS, ProSe and group communications
Network-related services
Enhancements to User Plane Congestion Management (UPCON)
Application Specific Congestion Control for Data Communication (ACDC
Enhancements for Service Capability Exposure (AESE)

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