5G Technology Training and Certification

5G Technology Training & Certification
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1. 5G Technology
1.1 5G introduction 1.2 5G Requirement 1.3 5G Requirement part 2 1.4 5G Spectrum
1.5 5G Air Interface 1.6 5G Air Interface Performance 1.7 Sparse Code Multiple Access

1.1 5G Introduction (19:44) 1.2 5G Requirements (23:00) 1.3 5G Requirement 2 (17:44)
5G Agencies
Aim
Goal
Technologies
Requirements
Need of 5G
User driven requirements
Network driven requirements
1.4 5G Spectrum (25:00) 1.5 5G Air Interface (23:03) 1.6 5G Air Interface
Performance (18:33)
Spectrum
Bandwidth requirements
Applications
Flexible air interface
Composition
Technique used
Performance
Air interface capacity
Low latency
Capacity equation

1.7 Spatial Code Multiple
Access (26:28)
Spatial Code Multiple Access
Multiple reception technologies

2. Massive MIMO
2.1 Massive MIMO 1 2.2 Massive MIMO 2 2.3 Massive MIMO 3 2.4 Massive MIMO 4
2.5 Massive MIMO Coding

2.1 Massive MIMO 1 (17:17) 2.2 Massive MIMO 2 (17:34) 2.3 Massive MIMO 3 (20:21)
Concept
Requirement
Potential for MIMO
Advantage
Massive MIMO
Description
2.4 Massive MIMO 4 (21:45) 2.5 Massive MIMO Coding(28:36)
Multiple access in MIMO
Channel state information
Linear precoding & decoding
Matched filter decoding
Conjugate beamforming
Channel estimation

3. MMWAVE
3.1 mmWave Communication 3.2 mmWave Application 3.3 mmWave Propagation &
Coverage 3.4 mmWave Radio

3.1 mmWave Communication
(22:50)
3.2 mmWave Application (21:44) 3.3 mmWave Propagation &
Coverage (19:46)
Introduction
Antenna array
Emerging application
Data centres
Wired connections replacement
on chip
Information shower
mmWave spectrum
MmWave propagation
3.4 mmWave Radio (23:45)
Frequency bands
Propagation condition
Technical attributes
Smaller antennas
Fast ethernet interface
System overview

4. SIGNAL PROCESSING
4.1 5G Signal Processing Part 1 4.2 5G Signaling Processing Part 2 4.3 Spatial Signal
Processing 4.4 3D Beamforming & diversity 4.5 OAM

4.1 5G Signal Processing (15:02) 4.2 5G Signal Processing 2
(17:43)
4.3 Spatial Signal Process (19:31)
Introduction
Advanced Modulation Scheme
GFDM
FBMC
UFMC
BFDM
NOMA
Technique
Advantages
3D Beamforming
Diversity
4.4 3D Beamforming & Diversity
(19:10)
4.5 OAM (18:26)
3D Techniques
FFT/IFFT Units
OAM Signal processing
Techniques

5. CRAN
5.1 CRAN Introduction 5.2 CRAN Advantages 5.3 Multiband RRH 5.4 CRN Architecture
part 1 5.5 CRAN Architecture part 2 5.6 CRAN Deployment 5.7 H-CRAN

5.1 CRAN Introduction (19:37) 5.2 CRAN Advantages (18:37) 5.3 Multipath RRH (16:37)
CRAN Introduction
Traditional RAN
Future RAN
Advantages RRH
Position of RRH
Multiband RRH
5.4 CRAN Architecture 1 (21:23) 5.5 CRAN Architecture 2 (21:23) 5.6 CRAN Deployment (19:44)
CRAN Solution
Centralization
Full Centralization
Partial Centralization
Advantages
Disadvantage
RRH
BBU
Position
Current CRAN
Future CRAN
Functional Split RRH & BBU

5.7 H-CRAN (21:58)
Aim
Node C
Features
BBU Pooling

6. VISIBLE LIGHT COMMUNICATION
6.1 Visible Light Communication part 1 6.2 Visible Light Communication part 2

6.1 Visible Light Communication
Part 1 (21:32)
6.2 Visible Light
Communication Part 2 (16:57)
Basics
Authentication tech
Types
Root user

7. D2D
7.1 D2D Communication 7.2 D2D Architecture & Applications

7.1 D2D Communication (18:53) 7.2 D2D Architecture &
Applications (15:33)
Introduction
Prose Communications
Advantage
Data paths
Architecture
RAN Requirements
Technical Challenge
Benefits

8. SOFTWARE DEFINED RADIO (SDR)
8.1 Software Defined Radio 8.2 Software Defined Radio Part 2 8.3 SDR Architecture 8.4
Ultra Dense Network 8.5 FD MIMO & RI

8.1 Software Defined Radio
(19:49)
8.2 Software Defined Radio
part 2 (19:39)
8.3 SDR Architecture (18:17)
Introduction
SDR device
Candidate Technologies
Radio Access Virtualization
Hypercells
Intelligent Spectrum Utilization
Architecture
Description
8.4 Ultra Dense Network 1(7:17) 8.5 FI MIMO & RI (12:48)
Deployment
Macro BS
Small cells
FD MIMO
Horizontal Beam
Vertical Beam
Rank Indicator

9. SMALL CELLS
9.1 5G Small Cells 9.2 Neighborhood Small Cells 9.3 Hetnets Introduction 9.4 Small
Hetnets Deployment 9.5 Hetnets

9.1 5G Small Cells (20:58) 9.2 Neighborhood Small Cell
(20:29)
9.3 Hetnets Introduction (22:53)
Introduction
Benefits
Enabler of Small Cells
Neighborhood Small Cell
Benefits
Mobility Management
Files
Zone files
Record file
9.4 Small Cell Deployment (13:32) 9.5 Hetnets (18:52)
Small Cell
Technical consideration
Interference Management
Mobility Management
Introduction
Small Cells
Large Cells

10. SDN
10.1 SDN Introduction 10.2 SDN Concept 10.3 SDN Descriptive Overview 10.4 SDN Architecture Essentials
10.5 SDN Architecture Essentials part 2 10.6 SDN Planes description 10.7 SDN Controller 10.8 Open Day
Light Controller Architecture 10.9 Day Light Description 10.10 Service Abstraction Layer 10.11 SAL Data
Services 10.12 Evolution of Controller SAL 10.13 Open Flow 10.14 Open Flow Switches 10.15 SDN Tools
and Control Function 10.16 SDN Provider 10.17 Elastic SDN Controller 10.18 Elastic SDN Controller Part 2
10.19 SDN Management 10.20 Inhibitors to SDN Adoption 10.21 SDN Security 10.22 OF Switch Part 2

10.1 SDN Introduction (18:47) 10.2 SDN Concept (18:45) 10.3 SDN Descriptive Overview (19:10)
SDN Concept
SDN Requirement
SDN Basic Concept SDN Architecture
SDN Planes
10.4 SDN Architecture Essential
(17:57)
10.5 SDN Architecture
Essential Part 2 (18:14)
10.6 SDN Planes Description (18:54)
Data Plane
Control Plane
Application Plane
Architecture
Planes
Data Planes description
Control Planes Description

10.7 SDN Controller (19:34) 10.8 Open Day Light Controller
Architecture (19:10)
10.9 Day Light Discription (22:13)
History
SDN Controller
SDN Architecture
Open Day Light Controller
Architecture
South Bound Protocols
Components
REST
10.10 Service Abstraction Layer
(18:20)
10.11 SAL Data Services (23:13) 10.12 Evolution of Controller SAL
(16:40)
Description
Architecture
Services
Data Services
Interfaces
Model Based Approach
Switch Manager
GUI
High Availability

10.13 Open Flow (17:24) 10.14 Open Flow Switches (18:33) 10.15 SDN Tools & Control
Functions (20:15)
Introduction
Switch
Functions
Switches
High Techniques used
Switch Interactions
SDN Tools
Control Functions
10.16 SDN Provider (23:23) 10.17 Elastic SDN Controller
(22:13)
10.18 Elastic SDN Controller (17:30)
Single Player Provider
Provider with Clients
Elastic on Architecture
Basic Distributed Controller
Description
Switch Migration
Naive Protocol

10.19 SDN Management (21:45) 10.20 Inhibitors to SDN
Adoption (18:36)
10.21 SDN Security (21:31)
Policies
Requirements
Standardization
Challenges
Inhibitor to Adoption
Requirements
Controller Security
Application Security
Prevention
10.22 OF Switch Part 2 (12:52)
Open Flow Switch
Functions

11. NFV
11.1 NFV Introduction 11.2 NFV Approach 11.3 NFV Deployment Evolution 11.4 NFV Reliability 11.5
Carrier Grade Infrastructure 11.6 NFV Adaptable Network 11.7 Automated Lifecycle Management 11.8
NFV Architecture 11.9 Architecture Description 11.10 High Level NFV Approach 11.11 Network Service in
NFV 11.12 Network Service in NFV Part 2 11.13 NFV Infrastructure 11.14 V Layer, Resources, VIM 11.15 NFV
Uses 11.16 NFV Uses & Operation Implications 11.17 NFV Security Part 1 11.18 NFV Security Part 2 11.19
NFV Benefits & Challenges 11.20 Mobile Packet Core Virtualization 11.21 vSwitch 11.22 Test Case 11.23
SDN NFV Considerations 11.24 SDN NFV Relation 11.25 SDN NFV Ecosystem

11.1 NFV Introduction (19:15) 11.2 NFV Approach (18:45) 11.3 NFV Deployment Evolution
(19:45)
Introduction Virtualization Approach
NFV Relation SDN
Deployment Evolution
Virtualization
Automated Lifecycle Management
11.4 NFV Reliability (21:25) 11.5 Carrier Grade
Infrastructure (18:45)
11.6 NFV Adaptable Network (21:45)
SLA
Reliability
Availability
NFV Security
Need of Architecture
What is Virtualize
Adaptability
Specification

11.7 Automated Life
Management (21:23)
11.8 NFV Architecture (22:05) 11.9 Architecture Description (24:22)
Roles of Management
Description
IAAS
PAAS
Virtualization End to End
Overview of Architecture
Element of Management
Description
Distributed NFV infra
MANO Elements
VIM
NFV manager
11.10 High Level NFV Approach
(17:16)
Network Services in NFV (21:16) Network Service in NFV Part 2
(17:58)
NFV Domains
Forwarding Graphs
End to End Service
VIrtualization of Functional Blocks
Forwarding Graphs
Nested FG
Implications of NFV
NFV Functional Blocks

11.13 NFV Infrastructure (24:12) 11.14 V Layer, Resources, VIM
(22:00)
11.15 NFV Uses (24:23)
Infrastructure
Hardware Resources
Transport Network
Virtualization Layer
Resource
Manager
NFV IAAS
NFV AAS
VOHE
NFV FG
NFV PAAS
11.16 NFV Uses & Operations
Implications (17:48)
11.17 NFV Security Part 1 (19:06) 11.18 NFV Security Part 2 (20:39)
VBMS
CDNS
Operations Implications
Security
Loss of Integrity
Loss of Control
Loss of Availability
Loss of Confidentially
Security
Threat Mitigation

11.19 NFV Benefits & Challenges
(19:31)
11.20 Mobile Packet Core
Virtualization (17:44)
11.21 vSwitch (17:57)
Benefits
Challenges
Introduction
Requirement
Description
Open Source Switch
11.22 NFV Test Cases (21:23) 11.23 SDN NFV Considerations
(16:11)
11.24 SDN NFV Relation (20:07)
kPI in NFV
Hypervisor
NFV Test Cases
Combining NFV SDN
Considerations in Combining
Relation Between SDN NFV
Implementation

11.25 SDN NFV Ecosystem (18:38)
SDN Ecosystem
NFV Ecosystem

Afghanistan
Albania
Algeria
Andorra
Angola
Antigua & Barbuda
Argentina
Armenia
Aruba
Australia
Austria
Azerbaijan
Bahamas, The
Bahrain
Bangladesh
Barbados
Belarus
Belgium
Belize
Benin
Bhutan
Bolivia
Bosnia &
Herzegovina
Botswana
Brazil
Brunei
Bulgaria
Burkina Faso
Burma
Burundi
Cambodia
Cameroon
Canada
Cabo Verde
Central African
Republic
Chad
Chile
China
Colombia
Comoros
Congo, DR of the
Congo, R of the
Costa Rica
12Cote d'Ivoire
Croatia
Cuba
Curacao
Cyprus
Czechia
Denmark
Djibouti
Dominica
Dominican Republic
East Timor
Ecuador
Egypt
El Salvador
Equatorial Guinea
Eritrea
Estonia
Ethiopia
Fiji
Finland
France
Gabon
Gambia, The
Georgia
Germany
Ghana
Greece
Grenada
Guatemala
Guinea
Guinea-Bissau
Guyana
Haiti
Holy See
Honduras
Hong Kong
Hungary
Iceland
India
Indonesia
Iran
Iraq
Ireland
Israel
Italy
Jamaica
Japan
Jordan
Kazakhstan
Kenya
Kiribati
Korea, North
Korea, South
Kosovo
Kuwait
Kyrgyzstan
Laos
Latvia
Lebanon
Lesotho
Liberia
Libya
Liechtenstein
Lithuania
Luxembourg
Macau
Macedonia
Madagascar
Malawi
Malaysia
Maldives
Mali
Malta
Marshall
Islands
Mauritania
Mauritius
Mexico
Micronesia
Moldova
Monaco
Mongolia
Montenegro
Morocco
Mozambique
Namibia
Nauru
Nepal
Netherlands
New Zealand
Nicaragua
Niger
Nigeria
North Korea
Norway
Oman
Pakistan
Palau
Palestinian
Territories
Panama
Papua New
Guinea
Paraguay
Peru
Philippines
Poland
Portugal
Qatar
Russia
Rwanda
Saint Kitts & Nevis
Saint Lucia
Saint Vincent Samoa
San Marino
Sao Tome & Principe
Saudi Arabia
Senegal
Serbia
Seychelles
Sierra Leone
Singapore
Sint Maarten
Slovakia
Slovenia
Solomon Islands
Somalia
South Africa
South Korea
South Sudan
Spain
Sri Lanka
Sudan
Suriname
Swaziland
Sweden
Switzerland
Syria
Taiwan
Tajikistan
Tanzania
Thailand
Timor-Leste
Togo
Tonga
Trinidad and
Tobago
Tunisia
Turkey
Turkmenistan
Tuvalu
Uganda
Ukraine
United Arab
Emirates
United Kingdom
Uruguay
Uzbekistan
Vanuatu
Venezuela
Vietnam
Yemen
Zambia
Zimbabwe
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