5G and IoT Network Design, Planning and Applications

5 DAYS

INSTRUCTOR LED WORKSHOP

“OUR COURSES CAN BE SPECIALLY TAILORED TO ADDRESS YOUR REQUIREMENT – TELECONTRAN”

5G and IOT

COURSE OBJECTIVES

As society runs rapidly into the information age new advancements in artificial intelligence, data processing, and wireless communications have given rise to the faster exchange of wireless data. The surge in mobile traffic is primarily driven by the proliferation of mobile devices and the accelerated adoption of data‐hungry mobile devices.

Mobile traffic is still growing and the need for more sophisticated broadband services will further push the limit on current standards to provide an even tighter integration between wireless technologies and higher speeds. With 4G speeds reaching comfortable download speeds up to 2 Gbps, expect the next jump to 5G to push mobile performance from 2.4Gbps topping out at nearly 20Gbps, boosting the performance and capabilities of newly wired fiber-optic networks. IOT solution will assist in connecting millions of devices within next 5 years with the evolution of communications that will bring the world to a faster, smarter future. With IoT enabled devices in mind, 5G is meant to connect more devices at higher speeds and make things like lag nearly non-existent, giving way to a seamless user experience.

Telecontran’s 5-day Workshop on 5G and IOT Network Design is designed to provide a concise synopsis of the key areas associated with the 5G System, with focus on the concepts and drivers, the 5G New Radio and NG-RAN, the end to end system architecture, Small cells, QoS as well as 5G Internet, IoT, IoT deployment in 5G Network.

After successful completion of this 5-day workshop participants will be able to

  • Understand a concise and accessible explanation of the underlying technology and standards for 5G technology
  • Learn different aspects of emerging system and network architectures, including Ultra-Dense Networks (UDN), Software-Defined Networks (SDN), Device-to-Device (D2D) communications.
  • Gain knowledge to plan, design and optimize a 5G network
  • Describe new 5G Radio Access Technology Interworking with LTE as well as New Radio (NR), Cloud RAN: Cloud- Radio Access Network (C-RAN) and Next Generation (NexGen) architecture.
  • Paint a more focused 5G technology roadmap, putting in place a clear set of challenges and requirements.
  • Investigate into IoT, radio access, M2M and edge computing.

COURSE CURRICULUM

Target Audience

This course is specially designed for Radio Network Planners, Transmission Engineers, Core Network Engineers, Project Managers, RF Engineers & Technicians and frequency spectrum and policy makers from Regulators, in a word, anyone looking for an understanding of the technologies and interworking requirements of the next generation of cellular communications.

Day 1

Introduction to 5G Technology

  • 5G Drivers
  • Evolution of LTE / 4G to beyond 4G
  • 3GPP Standardization Roadmap
  • Key Principles
  • Objectives of 5G
  • The ITU IMT-2020 5G requirement
  • eMBB, URLLC and mMTC
  • 5G in Different countries around the world

3GPP 5G Architecture

  • 5G System Architecture
  • Function of different 5G components
  • 5G Access Network
  • NG-RAN
  • 5G Core Network
  • The new service-based architecture (SBA)
  • 5G Core Network Architecture
  • PDU Sessions
  • Core Network Elements
  • Network Virtualization
  • Network Slicing
  • 5G Frequency Spectrum
  • ICIC and eICIC
  • 5G Carrier Aggregation
  • eIMTA
  • Multi-access Edge Computing (MEC) and Local Area Data Networks (LADN)
  • Interference Management
  • Mobility Management
  • Dynamic Reconfiguration

Day 2

5G Internet

  • IoT
  • SDN / NFV
  • Mobility
  • QoS Control
  • Emerging Approach for Resource over Provisioning

Overview of Internet of Things

  • Architecture of IoT
  • Resource Management
  • Data Management and Analytics
  • Communication Protocols
  • Applications of IoT

5G and IoT

  • CPS and M2M
  • MTC
  • Fundamental Techniques for MTC
  • mMTC and Its Features

IoT connectivity Method and Technologies

  • Wireless 101
  • RF 101
  • ZigBee PRO, ZigBee 3.0 and ZigBee IP
  • 6LowPAN
  • LoRa
  • LoRaWAN
  • RFID
  • Bluetooth and BLE (BT5.0)
  • Z-Wave
  • Home Automation (HA) Profile
  • Smart Energy (SE) Profile
  • IEEE 802.15.4, IEEE 802.15.4e, 802.11ah
  • 11ah, Wi-Fi HaLow
  • Relay Access Point (AP)

Day 3

Cognitive Radio for 5G Wireless Networks: NG-RAN and New Radio (NR)

  • NG-RAN Architecture
  • Relevant Radio Spectrum Optimization
  • Massive MIMO vs. MU-MIMO
  • D2D Communications
  • mmWave Radio
  • NR Features
  • Integration with LTE and E-UTRAN
  • Beamforming and Steering
  • C-RAN vs. D-RAN
  • 5G RRC States

5G New Radio (NR)

  • New Radio Access Layer 2/3 Aspects and System Operation
  • Layer 2 and Layer 3 Functions and Services
  • New Radio Access Physical Layer Aspects
  • DL/UL Performance evaluation of multiple access
  • 5G PHY Technologies: Coding schemes
  • 5G PHY Technologies: Dynamic TDD
  • NR Radio Parameters and Spectrum
  • Radio Resource Management Specifications
  • Considerations for Implementation and Operation in mmWave Bands
  • Resource Spread Multiple Access (RSMA)
  • Non-orthogonal waveforms (NOMA)
  • Non-terrestrial networks
  • Vehicle-to-Vehicle (V2V)
  • Vehicle-to-Everything (V2X)
  • Integrated Backhaul Access (IAB)

Day 4

5G Radio Interface Protocol Aspects

  • Radio interface protocol architecture (CP and UP)
  • Overview of New Layer 2 functions
  • New MAC Sublayer
  • New RLC Sublayer
  • New PDCP Sublayer
  • New AS Sublayer
  • New TTI durations

5G Radio access network procedures

  • Dual Connectivity between NR and LTE
  • Xx interface
  • Intra-system Mobility
  • UE based mobility
  • Network controlled mobility
  • Inter-system Mobility
  • PDU Session Management
  • Initial UE Access
  • 5G QoS architecture in NR and NextGen Core
  • QoS impact on handovers

5G Small Cells

  • WiFi and Femto Cells
  • Mobile Data Demand Approach
  • Small Cell Challenges

5G CoMP

  • CoMP Enablers
  • CoMP in conjunction with Ultra Dense Network

Day 5

5G QoS

  • QoS Flows
  • 5G QoS Parameters
  • QoS Handling
  • Role of Network Exposure Function
  • Monitoring, Provisioning and Policy/Charging capabilities

5G Mobile Cloud

  • 5G Cloud Resources
  • Mobile Cloud Emblers
  • Network Coding
  • WWAN WLAN and WPAN range

IOT Applications using 5G

  • Fog Computing
  • Mobile Edge Computing
  • Cellular IoT
  • LTE-M
  • NB-IOT
  • Implementation and Deployment of NB-IOT

5G Security

  • Security and Challenges
  • Security Architecture and Domain
  • 5G Authentication and Key Agreement (5G-AKA)
  • HeNB Attacks
  • DDOS Attacks

5G: A Smart Future

Green Flexible RF for 5G

OUR HAPPY CLIENTS

WHAT OUR CLIENTS SAY ABOUT TELECONTRAN !!

Solomon Telekom
5G and IoT Network Design, Planning and Applications Workshop
This course has given me more insight on 5G network as a whole, from introduction to Smart Cities. The presentation was well outlined and learning objectives were successfully completed.
UNN Brunei
Workshop on 5G Technology
It was a fantastic workshop done by the instructor where I learnt a lot about 5G Technology.
UNN Brunei
Workshop on 5G Technology
Excellent workshop that made me engaged during these days to learn about 5G Technology, especially the transport layer and end user experience.
BATELCO
Online Training on Overview of LTE, 4G towards 5G Technology
Excellent introductory course presented by an excellent instructor who was so engaging and supportive that I did not hesitate to ask questions; His answers and presentation was great and understandable.
DST
Modern Telecommunications and Cellular Networking Bootcamp
The course covers all telecom technologies in the market specially 5G and IoT.
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