5G Wireless Technology Training Overview

5G Wireless Technology Training Overview


5G Wireless Technology Training Overview - Hands-on

5G wireless Technology training Overview (5th generation wireless systems or mobile networks) covers next major phase of wireless and mobile telecommunications standards beyond the current 4G/IMT-Advanced standards. 5G wireless training introduces most dominant technologies and architectures in near future which make 5G technology. 5G networks are expected to roll out broadly after 2020.

5G Wireless Training course covers the fundamental 5G wireless communications including, channels, RF circuits, antennas, propagation, and issues surrounding emerging 5G wireless LAN and cellular/backhaul applications.

Duration: 2 days

5G Wireless Technology Training Overview

5G Wireless Technology Training OverviewRelated Courses:

Customize It:

» If you are familiar with some aspects of this 5G Wireless Technology Training Overview course, we can omit or shorten their discussion.
» We can adjust the emphasis placed on the various topics or build the 5G Wireless Technology Training Overview 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 5G Wireless Technology Training Overview course in manner understandable to lay audiences.


» Describe what 5G is
» List the 5G wireless features and their benefits
» Describe key 5G technology drivers
» Illustrate 5G network architecture and components
» Describe the operation scenarios of 5G
» Explain the key RF, PHY, MAC and air interface changes required to support 5G
» Describe features supporting 5G wireless deployments
» Discuss the rationale for 5G wireless and key deployment topologies
» Outline changes required to implement 5G

Course Content:

What is 5G Wireless Communication?

5th Generation Wireless Technology
5G as a technology vision
5G Features
Why 5G?
Basic concepts behind 5G technology of mobile communication
5G technologies
5G technical objectives

5G Wireless Requirements, Applications, and Services

5G promises and challenges
Disruptive technology directions
Power consumption
Spectral efficiency
Resilience of the network
Adapting new topologies
Radio propagation and channel models
Pervasive networks
Internet of things (IoT) and M2M
Wireless sensor networks and ubiquitous computing
Wearable devices with AI capabilities

5G Wireless Standardizations and Projects

WWRF, the METIS Project and the DVB Project
METIS Project
Mobile and wireless communications Enablers for the Twenty-twenty Information Society
European Union Seventh Framework Programme (FP7)
IEEE 802.xx wireless mobile networks
Development of World Wide Wireless Web (WWWW)
11 Wireless Local Area Networks (WLAN)
16 Wireless Metropolitan Area Networks (WMAN)
Ad-hoc Wireless Personal Area Network (WPAN)
WiGig or IEEE 802.11ad
Millimeter Wave Mobile Communications for 5G Cellular
IEEE 802.22
DSA modes for WiFi and WiMAX
Whitespace and WhiteFi
Emerging field of mmWave communications.
ultrawideband WLAN and PAN networks.
IEEE 802.15.3c 802.11ad
High rate 60 GHz PHY

5G Vision

Key technology drivers and innovations behind 5G wireless
Next Wave of digital society
Machine-type Communications
Smart homes and buildings
Smart grid
Smart meters
Intelligent Transportation Systems (ITS)
Ultrahigh definition video
Virtual reality applications
Fiber-like user experience: 10 Gb/s data rates
Mobile cloud service
“Full Immersive” services
Immersive experience
Zero latency and response times
Zero-second switching
Tactical Radio
Policy-based DSA systems
Cognitive radar
Exa-scale cloud data centers and Edge computing
Internet of Vehicles
Ultra-dense networks
Virtualized and cloud-based radio access infrastructure

5G Technology Enablers

System design concepts
Dynamic Spectrum Access (DSA)
Interference Management
Small Cells
Coordinated Multipoint
Mass-scale MIMO
Caching and Delivering Techniques
Personal Mobile Internet
Device-to-Device Communication
Software-Defined Radio (SDR)
Cognitive Radio
Multi-hop networks
Direct device-to-device (D2D) communications
Dynamic Adhoc Wireless Networks (DAWN)
IPv6 and 6LowPAN
NFV, SDN, ICN, semantic and cloud networking
Direct Device-to-Device Communication (D2D)
Massive Machine Communication (MMC)
Moving Networks (MN)
Device-to-Device (D2D)
Ultra-Dense Networks (UDN)
Ultra-Reliable Communication (URC)
Mobile ad hoc network (MANET)
Wireless mesh network (WMN)
Vandermonde-subspace frequency division multiplexing (VFDM)
Disruptive approaches for increasing network capacity
Programmable optical backbone networks with petabit throughput

5G Challenges and Requirements

5G management and orchestration
New radio access technologies (RAT)
Spectrum bands availability
Networks and devices
Air-interface and RAN systems
Virtualized architectures
Service delivery architecture
Single frequency full duplex radio technologies
Architecture and key technologies
Dynamic deployment of network functions
New wireless backhaul solutions
Adaptive resource management
Flexible spectrum usage
Safety and delay critical network of Cloudlets
Performance requirements
Always-on users per cell
Duty cycles
Signaling loads
Massive capacity
Energy consumption
Spectrum impact
New architecture for services and service delivery
Hyper connectivity to trillions of devices
Massive dense networks
Massive distributed MIMO
Advanced interference and mobility management
Cooperation of different transmission points with overlapped coverage
Efficient support of machine-type devices
Latency and enhanced reliability

5G Wireless Air Interface
New access protocols and procedures for collaborative communications
Software defined air interface
Spectral usage techniques
Physical layer procedures, and coding
New modulations schemes
Channel models for 2.3 GHz, 2.6 GHz, 5.25 GHz, 26.4 GHz, and 58.68 GHz.
Advanced MIMO technology with wider bandwidths
Propagation modeling of densely populated urban areas
Beamforming, network discovery, and relaying
Coding and modulation algorithms
Interference management
Non-Orthogonal, Asynchronous Waveforms
Millimeter-Wave Beamforming
Cooperative diversity and flexible modulation
C o-existence of macro-cells and cognitive radio small-cells
Systems for mmWave transceivers

The 5G Operational Scenarios

Explanation of 5G scenarios
Examples of 5G technology components
Cognitive & energy-efficient wireless technologies
Enhancing LTE radio standards
Capacity and performance
System robustness
5G wireless implementation roadmaps
Spectrum metrics
Interference approaches
Reconfigurable radio hardware
5G evaluation tools and testbeds

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Time Frame: 0-3 Months4-12 Months

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