Price 2590 + VAT
DURATION 2 Days

Course Overview

The course reviews some of the key concepts that will shape the next generation of mobile systems – the 5G
5G standard, to be ready by 2020, is not only about new radio technologies, but also network architecture revolutions providing a full convergence of mobile network and Internet industries. It is single end-to-end protocol standard for the future mobile Internet!
The course allows you to get understanding, the 5G Ecosystem and Technologies, in-depth. It reviews in details the 5G cutting-edge technologies and architecture like heterogeneous networks, device-to-device communications and others, as well as looks at 5G Internet of Things (IoT) solutions and virtualization methods like SDN and NFV.
The course also deals with the 5G major challenge of integrating technologies and concepts that were separately developed, into one network..

Who should attend?

Service providers, Network Equipment vendors, Value-added services developers, Regulators, Entrepreneurs and Everyone who seeks to better understand where the mobile Internet industry is heading.

Prerequisite:

Basic knowledge of cellular networks is expected from the participants.

Course Outline:

1.1 Vision, Status and Roadmap
1.2 Insights into 5G network design and motivation
1.3 5G Ingredients
• Radio/Core Technologies interoperability and scalability
• IoT and Intelligent Connections
• AF – Aplication/Service as a network entity
• Proximity Services (ProSe)
• Data Analytics
1.4 Standardization and Regulation activity

2. 5G Challenges and Requirements
2.1 5G diverse service use cases
• eMBB – Enhanced Mobile Broadband
• URLL – Ultra-Reliable and Low Laten¬cy Communications
• mMTC – Massive Machine Type Communications
2.2 Service Challanges and Requirements
2.3 IMT2020 vision and standardization activity
• IMT2020 Network KPIs Requirement
o Mobility, Latency, Connection Density, Energy Effciency, Capacity, Data Rates, etc.
• 5G Network Requirements

3. 5G Network Architecture
3.1 Virtualization in 5G – Introduction
3.2 Cellular Networks Architecture Evolvement 3G-4G
3.3 Network Architecture – Synchronization
3.4 5G Architecture Principles
3.4.1 SBA – Service Based Architecture Model
3.4.2 Major Network Functions review (AMF, SMF, UDM, UPF, etc.)
3.4.3 Service Based Interfaces and Protocols (QUIC, HTTP2, etc.)
3.4.4 N3IWF – Inter Working Function Services
3.4.5 Roaming Local/Remote Breakout Architecture
3.5 Mesh topology and Device-2-Device architecture
• System aspects
• Scenarios, Network architecture

4. Edge Computing and Slicing
4.1 MEC – Mobile Edge Computing
• Goals and 5G Network Provision
• Use Cases
4.2 Slicing and Virtualization Architecture – SW centric Network
• Goals and 5G Network Provision
• Use Cases
4.3 Exposure to 3rd Party

5. 5G QoS
5.1 QoS Model
5.2 PCF Functionality
5.3 Flow Characteristics
5.4 SDAP

6. 5G Deployment Alternatives and Transport Network
6.1 5G Deployment Alternatives
6.2 5G Backhaul/Fronthaul Configuration
• CD/DU split
6.3 vRAN /C-RAN/D-RAN
• RRH (BBU) – Remote Radio Head (Baseband Unit)

7. 5G Radio Technologies
7.1 The 5G Radio Principles
7.2 5G Spectrum allocation planning
• Low-Band – up to 1GHz
• Mid-Band  –  1GHz – 6GHz
• High-band – mmWave
• Licensed and Unlicensed Bands
7.3 5G Key Radio and PHY design across services
• Multiple Access Methods
o OFDMA/DFT-S-FDMA
o Non-Orthogonal Methods (e.g. RSMA)
• Advanced Multiple-Input and Multiple-output (MIMO) Techniques (e.g. FD-MIMO)
• Latency Reduction Techniques
7.4 Multi-Connectivity Techniques
7.5 Device-2-Device radio considerations8. IoT
8.1 Market Data and standardization
8.2 General Architecture
8.3 IoT Verticals Typical Use-Cases
• Connected Car – V2X (Vehicle to Everything)
• Industrial management and Smart Grid
• Smart City
• Smart Home/Building
8.4 mIoT Short Range and  Unlicensed Spectrum Solutions
• Short range soultions
• LPWAN Unlicensed Spectrum Solutions
o SigFox, LoRA
8.5 C-IoT – Cellular Licensed Spectrum Solutions
• NB-IoT – 3GPP LPWA Narrowband IoT solution LTE Cat-NB1/2
• LTE-M – eMTC LTE Cat-M1/29. VoLTE / VoNR / VoWiFi
9.1  Data, voice and SMS handling
• Data transfer
• SMS delivery
• Introduction to IMS
• VoLTE and VoNR introduction and architecture
• VoWiFi

10. Management  and  Orchestration for 5G Networks
10.1 FCAPS principles
10.2 3GPP SDN/NFV Orchastration and Management Architecture
10.3 MANO and Slices Management
10.4 Management and NEF – Network Exposure Function
10.5 Common  Information Model
10.6 Unified Datacenter Maanagewment

11. 5G Security
11.1 5G Security Vision
11.2 SDS – SW Defined Security and security virtualization
11.3 Elements of a 5G security architecture
• Trust Model
• Slices Security
11.4 Identity Management

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