telxperts telecom trainings

5G & Self Organizing Network (SON) Certification Course

£450.00

Location: Online

Duration: 2 Days

From- To: 2016-10-31 to 2016-11-01

Product Description

Course Overview

5G wireless is the next step in the evolution of mobile communication. It will be a key component for ubiquitous mobile connectivity ensuring unlimited access to data sharing and information exchange around the world. 5G wireless access is not supposed to be a specific radio-access technology only, rather, it is an overall wireless-access solution to the requirements and demands of mobile communication beyond 2020. To enable mobile connectivity for a wider range of new applications, the capabilities of 5G wireless access must extend far beyond previous generations of mobile communication like very high achievable data rates, very low latency, ultra-high reliability, and extreme device densities handling. The 5G wireless access technology will be realized with the continued development of LTE in combination with new radio-access technologies. Key technology components include extension to higher frequency bands, advanced multi-antenna transmission, lean design, user/control separation, flexible spectrum usage, complementary device-to-device communication, and backhaul/access integration.

This course provides deep insight to the 5G wireless technologies, standards and architectures in this training course, which are expected to roll out broadly after 2020.  This course also covers the fundamentals of 5G wireless communications including, applications, channels, air interfaces, antennas, operational scenarios, propagation, challenges involved in deployment of 5G applications. This course also provides a deep insight to Self-Organizing Networks (SON) covering the major concepts in SON including self-configuration, self-optimization and self-healing in SON, SON Domains and Operational procedures.

Key Benefits for Participants

This course will provide the following key benefits to the attendees:

  • Understand the fundamentals of 5G wireless Technology and Access Methods
  • Understanding the 5G wireless features and benefits of 5G Wireless Communication Systems
  • Deep insight to 5G Wireless System Architecture, Air Interface, Standadrdization and technologies
  • Learn about 5G Wireless Operational Scenarios and Challenges in 5G Wireless Access Technology
  • Explore Self-Organizing Networks (SON), SON Architectures, Domains and Operations
  • Understand Self-Configuration, Self-Optimization and Self-Healing in SON Networks
  • Deep Insight to LTE-Advanced SON Networks and heterogeneous Networks

Course Objectives

This course has the following major objectives:

  • Provide comprehensive knowledge about 5G Wireless Techniques, Access Methods, and LTE-A UE Capability Exchange and Band Combinations
  • Deliver insights about 5G Wireless Infrastructure requirements, propagation models, topologies and applications
  • Provide detailed insight to 5G Wireless Physical Layer procedures, Multiple Access and resource management Techniques and Modulation Schemes
  • Detailed insights to Wireless Projects by METIS, IEEE, WWRF and DVB Project
  • Comprehensive knowledge about 5G Wireless technology Enablers and Services
  • Provide deep understanding of roadmap to 5G Wireless Implementation, Spectrum Metrics and Interference Approaches
  • Explain 5G wireless backhaul challenges and interference and mobility management issues in detail
  • Provide detailed insight to SON Framework, SON Operations and optimization in LTE Systems

Course Outline

In “”5G & Self Organizing Network (SON) Certification Course””, we cover the following course contents:

5G Introduction

  • Defining 5G
  • Market Drivers
  • 5G Supporting Technologies and Core Network Concepts
  • 5G Radio Access Networks and Technologies

Ovum Operator Survey of 5G

  • Important factors for 5G vendor
  • Speed, latency, and IoT importance for mobile operators in terms of 5G

The 3GPP Connectivity Family

  • Technical deep-dive into available connectivity solutions within 3GPP.

LTE-A Enhancements and Outlooks to 5G

  • LTE/LTE-A Machine Type Communication (MTC and M2M)
  • Overload Control by Extended Access Class Barring
  • Support of Diverse Data Applications
  • In-Device Coexistence Techniques for WLAN, Bluetooth etc.
  • UE Measurements and Measurement Reports to Minimize Drive Tests (MDT)
  • MDT Configuration and MDT Procedures
  • LTE-A UE Capability Exchange and Band Combinations
  • LTE-A Release 12 Outlook and 5G Technology Enhancements
  • Enhanced PDCCH Control Channel and New Carrier Types
  • Local Area Access and Super Dense Networks
  • CoMP with non-ideal backhaul
  • Proximity Detection and Device to Device Communication
  • Future Public Saftey

5G Wireless Requirements

  • 5G vision
  • Infrastructure requirements
  • Power consumption
  • Propogation Models
  • Spectral efficiency and bandwidth constraints

5G Wireless Applications

  • Resilience of the network
  • Adapting new topologies
  • Pervasive networks
  • Internet of things (IoT) and M2M
  • Wireless sensor networks and ubiquitous computing
  • Wearable devices with AI capabilities

5G Wireless Air Interface

  • Physical layer procedures
  • Multiple access and resource management techniques
  • Advanced MIMO
  • Milimeter wave beamforming
  • Modulation schemes

5G Wireless Standardization and Projects

  • IEEE
  • 3GPP
  • ETSI
  • 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
  • ECMA
  • High rate 60 GHz PHY

5G Wireless 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

5G Technology Enablers and Services

  • 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
  • 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)
  • Millimeter-Wave
  • Disruptive approaches for increasing network capacity
  • Programmable optical backbone networks with petabit throughput

5G Challenges

  • New radio access technologies (RAT)
  • Latency
  • Energy Consumption
  • Massive Dense networks
  • Interference and mobility management
  • Wireless backhaul challenges

Introduction to SON

  • SON History and Challenges
  • SON Vision & Architectures
  • Operational challenges for SON
  • Centralized, distributed and hybrid
  • Heterogeneous Networks (HetNets) in the context of SON
  • SON Frameworks

SON Domains and Operations

  • Self Optimizing Networks (SON) in the LTE system
  • SON domains and SON operation in LTE radio network
  • Self-Configuration, Self-Optimization and Self-Healing
  • SON operation in both the Evolved Packet Core (EPC)
  • SON operation in Multi-RAT operational scenarios

Self-Configuration in SON

  • Self-planning/configuration, self-deployment and fault management
  • Auto-connectivity and commissioning
  • Automated (plug & play) connectivity setup
  • eNB including X2/S1 interface setup
  • Neighbor and cell ID configuration
  • Self-Optimization works during the normal operation of the network
  • Handover/RACH parameters
  • Adjusting the RAN configuration
  • Dynamic radio configuration

Self-Optimization in SON

  • Network performance
  • Automated network failure detection and recovery
  • Mobility Robustness Optimization
  • Mobility Load balancing
  • Energy Savings
  • LTE Capacity and Coverage Optimization
  • RACH Optimization

Self-Healing in SON

  • Cell degradation detection, diagnosis and recovery
  • Cell outage compensation
  • SON for core networks

LTE-A Self-Organizing Networks and Heterogeneous Networks

  • SON Architectures (distributed, centralize, hybrid) and Use Cases
  • SON Framework and Management Model and Interfaces
  • Self-Configuration (S1/X2) and Self-Optimization (ANR)
  • Mobility Load Balancing and Mobility Robustness Optimization
  • LTE/LTE-A Energy Saving – On/Off Switching of Base Stations
  • HeNB Architecture Options and HeNB Gateway Functionality
  • HeNB Access Control and Closed Subscriber Group Management
  • HeNB Identification and Mobility Procedures in Rel.8/9/10
  • LTE-Advanced Coverage Enhancement by Relay Nodes
  • In-band Relays using Un Interface (MBSFN sub-frames, R-PDCCH)
  • Range Expansion and PDCCH Control Channel Robustness
  • Enhanced Inter-cell Interference Coordination (eICIC)
  • Almost Blank Subframes and CSI Measurement Restrictions
  • FeICIC UE Inter-cell Interference Cancellation Techniques
  • Enhanced PDCCH Control Channel to support Beam Forming

Selected Case Studies

  • Market based case studies
  • How to put knowledge into industrial solution

Delivery Options

  • Online
  • Onsite

Who Should Attend

  • Technical managers who require in depth understanding of areas of 5G Wireless communication
  • Technical managers and engineers who are specifically interested in the knowledge of the 5G Wireless technologies, standards and applications

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