£209.49 – £1,066.69

5G Telecommunication Comprehensive Training, London, UK

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78 York St

78 York Street

London

W1H 1DP

United Kingdom

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Explore latest 5G standards, network architecture, signaling, RAN, core network, security, technology and IoT use cases at 5G Masterclass

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5G Comprehensive Training

By the end of the course you will be able to learn new 5G Technology and the following 5G network topics:

  • Understand 5GPP & NGMN
  • 5G Concepts and Ecosystem
  • Standardization and 5G Public Private Partnership (5GPPP)
  • 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

Course Content

What is 5G Wireless Communication?

  • 5th Generation Wireless technology
  • Why 5G?
  • End-to-End 5G Ecosystem
  • 5G high level requirements and features
  • 5G technologies
  • 5G Activities and Interest Groups
  • 5GPP
  • 5G Forum
  • 5GMF
  • 3GPP
  • ITU-T’s IMT-2020, WRC-15
  • NGMN Alliance
  • 5G Americas
  • ETSI

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

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)
  • 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 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

  • 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 roadmaps
  • Spectrum metrics
  • Interference approaches
  • Reconfigurable radio hardware
  • 5G evaluation tools and testbeds

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)

      Contact Us:

      This course is organized by Smart Cites Expo World Forum Team. The details of Smart City Expo can be found on the following links:

      www.SmartCityExpo.ae

      www.SmartCityExpo.com.au

      www.SmartCityExpo.ca

      info@SmartCitiesExpoWorldForum.com

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      78 York Street

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      W1H 1DP

      United Kingdom

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