5G Wireless Training | 5G A Comprehensive Technical Overview Training

5G Wireless Training | 5G A Comprehensive Technical Overview Training

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Introduction:

5G Wireless Training, A Comprehensive Technical Overview Training with Hands-on Exercises (Online, Onsite and Classroom Live)

5G Wireless Training, (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 also covers the fundamental 5G wireless communications including, channels, RF circuits, antennas, propagation, and issues surrounding emerging 5G wireless LAN and cellular/backhaul applications. Compared with 4G/LTE cellular systems, 5G wireless communication systems (5G) are expected to provide higher spectral and energy efficiency and area throughput growth. Learn the key 5G wireless communication networks cellular architecture and key technologies for 5G communication networks.

Learn how 5G networks could provide more data bandwidth and less latency using built-in computing intelligence to handle more data more efficiently than today’s 4G networks. 5G networks will leverage more benefits of Moore’s Law due to the convergence of communications and computing technologies and platforms. 5G wireless training covers concepts, services, technologies and network components behind 5G wireless. Find out how 5G wireless networks will be much smarter and faster than 4G. New trends such as M2M, self driving cars, smart cities, connected society , Internet of Things (IoT), broadcast-like services, lifeline communications in times of natural disaster will be part of the new 5G wireless services.

Duration: 4 days

RESOURCES:

  • 5G Wireless Training Guide by Madhusanka Liyanage , Ijaz Ahmad, et al – Paperback/Amazon
  • 5G Wireless Training Guide by Patrick Marsch , Ömer Bulakci, et al. – Paperback/Amazon
  • 5G Wireless Training Guide by Erik Dahlman – Paperback/Kindle/Amazon
  • 5G Wireless Training Guide by Mahdi Talebi – Kindle/Amazon
  • 5G Wireless Training Guide by Patrick Marsch , Ömer Bulakci, et al. – Hardcover/Amazon
  • 5G Training An Advanced Guide by Louise Steele, Patricia J. Rullo, et al. – Hardcover/Amazon
  • 5G Training Guide by Scott Meredith – Hardcover/Amazon
  • 5G Training Guide by Harri Holma, Antti Toskala, et al. – Hardcover/Amazon
  • 5G Training Guide by Muhammad Ali Imran, Yusuf Abdulrahman Sambo, et al. – Hardcover/Amazon
  • 5G Training Guide by Michael Fox – Hardcover/Amazon
  • 5G Training Guide by Ajay R. Mishra – Hardcover/Amazon

5G Wireless Training – Related Courses

5G Wireless Training – Customize It:

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

5G Wireless Training – Objectives:

Upon completing this 5G Wireless Training course, learners will be able to meet these objectives:

  • Describe what 5G is
  • List the 5G wireless features and their benefits (5G wireless communication networks)
  • Describe key 5G technology drivers and enablers of 5G
  • List 5G technology candidates in RAN/radio, transport, core networks, interoperability and services
  • List 5G Wireless Use Cases
  • List User-Driven 5G Requirements
  • Describe ITU  5G standards (IMT2020) along with NGMN alliance and 3GPP
  • Describe 3GPP LTE/LTE-A evolution towards 5G
  • Walk through current and future deployment of 5G scenarios
  • Co-Existence of LTE End-to-End Ecosystem with 5G
  • List similarities and differences between 5G Radio Access and LTE
  • Learn how 5G wireless networks could support up to 1,000-fold gains in capacity
  • List requirements to connect 100 billion human and devices with a 10 Gb/s speed with zero-distance connectivity
  • Describe new 5G Radio Access Technology Interworking with LTE
  • List 3GPP Licensed-Assisted Access (LAA), Narrowband- Internet of Things (NB-IoT), and Enhanced Device to Device (DD) requirements
  • Explain LTE-Advanced Pro and 3GPP roadmap to 5G
  • New Radio (NR), Cloud RAN: Cloud- Radio Access Network (C-RAN) and Next Generation (NexGen) architecture
  • Illustrate 5G wireless communication networks cellular architecture and key technologies
  • 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 typologies
  • Outline changes required to implement 5G
  • Learn about features of Massive MIMO

5G Wireless Training – Course Outlines:

What is 5G Wireless Communication?

  • 5th Generation Wireless technology
  • 5G as a technology vision
  • Why 5G?
  • End-to-End 5G Ecosystem
  • 5G high level requirements and features
  • Basic concepts behind 5G technology of mobile communication
  • 5G technologies
  • 5G technical objectives
  • 5G Activities and Interest Groups
  • 5GPP
  • 5G Forum
  • 5GMF
  • 3GPP
  • ITU-T’s IMT-2020, WRC-15
  • NGMN Alliance
  • 5G Americas
  • ETSI
  • ARIB

5G Wireless Requirements, Applications, and Services

  • 5G promises and challenges
  • Disruptive technology directions
  • Bandwidth
  • Power consumption
  • Infrastructure
  • 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

Overview of 5G Vision

  • Typical usage scenarios of 5G New RAT
  • Phase I
  • eMBB for sub-6GHz
  • Non-standalone
  • 5G New RAT
  • Phase II
  • eMBB for above 6GHz
  • Massive MTC
  • Critical MTC
  • 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)
  • Autonomous Vehicles (AV)
  • Ultrahigh definition video
  • Virtual reality applications
  • 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 Wireless Use Cases and Applications    

  • Description of Use Cases and Scenarios
  • Internet of Things (IoT) and Machine to Machine (M2M)
  • Smart Grid, SCADA, EMS and Critical Infrastructure Monitoring
  • Smart Building and Smart Cities
  • m-Health/Telemedicine
  • eMBB: Enhanced Mobile Broadband
  • MTC: Machine Type Communications
  • Automotive and Self-Driving Vehicles
  • V2X
  • Sports and Fitness Management
  • 3D/Virtual Reality (VR)
  • Augmented Reality (AR)
  • Gaming Applications
  • Public Safety and Citizen Analytic
  • Location and Context-Aware Service

Key Capabilities in IMT-2020

  • Peak data rate
  • Latency
  • Mobility
  • Connection density
  • Energy efficiency
  • Energy efficiency has two aspects:
  • Spectrum efficiency
  • Area traffic capacity

Overview of current and Past 5G Wireless Standardization and Projects

  • IEEE
  • ITU-T
  • 3GPP
  • ETSI
  • 5G Americas
  • 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/802.11ax/802.11az/802.11ay
  • ECMA
  • High rate 60 GHz PHY

5G Technology Enablers 

  • System design concepts
  • Dynamic Spectrum Access (DSA)
  • Interference Management
  • Small Cells
  • Coordinated Multipoint
  • Mass-scale MIMO, Massive MIMO
  • Caching and Delivering Techniques
  • Personal Mobile Internet
  • Device-to-Device Communication
  • Software-Defined Radio (SDR)
  • Cognitive Radio
  • Smart-radio
  • Multi-hop networks
  • Direct device-to-device (D2D) communications
  • Dynamic Adhoc Wireless Networks (DAWN)
  • IPv6 and 6LowPAN
  • Centralized RAN  vs. Cloud RAN
  • NFV, SDN, ICN, semantic and cloud networking
  • Direct Device-to-Device Communication (D2D)
  • Massive Machine Communication (MMC)
  • Massive Internet of Things (IoT)
  • SDN and NFV
  • Moving Networks (MN)
  • Ultra-Dense Networks (UDN)
  • Ultra-Reliable Communication (URC)
  • Mobile ad hoc network (MANET)
  • Wireless mesh network (WMN)
  • Vandermonde-subspace frequency division multiplexing (VFDM)
  • Millimeter-Wave
  • 5G Cloud radio access network (C-RAN)
  • Ultra small cells based heterogeneous network (HetNet)
  • Heterogeneous cloud radio access network (H-CRAN)
  • Disruptive approaches for increasing network capacity
  • Programmable optical backbone networks with petabit throughput
  • Ultra Reliable and Low Latency Communication (URLLC)
  • 5G management and orchestration
  • Full Dimension MIMO
  • Adaptive Coding and Modulation (AMC)
  • Filter-Bank Multi-Carrier (FBMC)
  • Frequency and Quadrature Amplitude Modulation (FQAM)

5G Challenges and Requirements

  • ITU and NMGN use cases for 5G
  • 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
  • Latency
  • 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 Options

  • New access protocols and procedures for collaborative communications
  • Software defined air interface
  • Spectral usage techniques
  • New multiple accesses (“no cell” concept)
  • New radio resource management 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
  • Generalized frequency division multiplex (GFDM)
  • Filter bank multicarrier (FBMC)
  • Universal filtered multicarrier (UFMC)
  • Filtered OFDM (f-OFDM)
  • Sparse code multiple access (SCMA)
  • Non-orthogonal multiple access (NOMA)
  • Resource spread multiple access (RSMA)
  • 3D Beamforming & Diversity
  • Hardwire connection replacement on chip
  • Information showers

3GPP Evolution to 5G: LTE-Advanced Pro

  • Major advances
  • Narrowband- Internet of Things (NB-IoT)
  • MTC enhancements
  • D2D, Enhanced Device to Device (D2D)
  • Public safety features : Proximity-based Services (Prose) for Public Safety
  • TDD/FDD Evolution
  • Small cell dual-connectivity and architecture
  • Carrier aggregation enhancements
  • Interworking with Wi-Fi
  • LTE-Unlicensed (LTE-U)
  • Licensed-Assisted Access (LAA) and Enhanced LAA (eLAA)
  • Indoor positioning
  • Single cell-point to multi-point
  • Impact on latency reduction
  • QAM-256
  • FD-MIMO or Full Dimension MIMO
  • MultiFire
  • Using Traditional licensed spectrum
  • Cloud RAN/C-RAN, SON, and Dual Connectivity

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 road maps
  • Spectrum metrics
  • Interference approaches
  • Reconfigurable radio hardware
  • 5G evaluation tools and test beds

3GPP Standardization and Enabling Technologies for 5G

  • 3GPP 5G System Requirements
  • 3GPP 5G System Architecture
  • Evolve Packet Core (EPC) Evolution
  • Next Generation EPC and Multi-RAT Support
  • Dedicated Core Network
  • eMBB, mMTC and URLLC
  • Network Slicing
  • RRC / NAS Status
  • Smalls Cells
  • Heterogeneous Networks (HetNet)
  • LTE and LTE-A Evolution to 5G Path
  • LTE Unlicensed
  • LTE License Assisted Access (LAA)
  • LTE-WiFi Radio Level Aggregation (LWA)
  • Cloud RAN (C-RAN), vEPC and vIMS
  • Discovery and Device to Device (D2D)
  • Vehicle to Vehicle (V2V)
  • LTE Machine Type Communication for Internet of Things (IoT)
  • Narrowband Internet of Things (NB-IoT)
  • Enhancements for eMTC and NB-IoT
  • Coordinated Multi-Point Transmission and Reception (CoMP)
  • Licensed Assisted Access for LTE (LAA-LTE)
  • LTE Wireless Local Area Network (WLAN) Aggregation (LWA)
  • Downlink (DL) Multi-User Superposition Transmission (MUST)
  • Network-Based IP Flow Mobility (NBIFOM)
  • Mission Critical Push-to-Talk (MCPTT) over LTE
  • Monitoring Enhancement (MONTE) for MTC services
  • Enhancements to MBMS, ProSe and group communications
  • Enhancements to User Plane Congestion Management (UPCON)

3GPP 5G System Survey

  • Principles of 5G Core (5GC)
  • Principles of 5G New Radio (5G NR)
  • NR, gNB, NG-RAN and 5GC
  • NG RAN
  • Dual Connectivity options

3GPP 5G Identifiers

  • Subscription Permanent Identifier (SUPI)
  • Subscription Concealed Identifier (SUCI)
  • Subscription Identification Security
  • Permanent Equipment Identifier
  • Subscription Identifier De-concealing Function
  • 5G Globally Unique Temporary Identifier

3GPP 5G Core Architecture Overview

  • Changes and Improvements Compared to 4G
  • CP/UP Split
  • NW Slicing
  • Key Network Functions
  • Network Connectivity
  • Service-Based Architecture (SBA)
  • Network interfaces and services
  • Network Exposure Function
  • Protocols
  • Control and User Plane separation
  • Modularization
  • Virtualization
  • Service-based Architecture (SBA)
  • Network Slicing
  • NFV and SDN
  • Multi-Access Edge Computing (MEC)
  • Network Slicing
  • Benefits of network slicing
  • Network Slice Selection Function
  • Interworking with 4G EPC
  • 5G Protocol Stack (OSI-based)
  • Quick Compare: Verizon, AT&T, T-Mobile, Sprint, others
  • Virtualizing the 5G Network Core and use Mobile Edge Computing (MEC)

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