Course Fee: £ 399.00

(VAT will be applied for the UK Customers)
3 Days

Day 1

  • Introduction to 4G Technology
  • Simulation tools used in 4G Technology in system level, link level. (matlab)
  • Relay Architecture and NODES
  • MIMO Enhancement in LTE Advanced
  • Recent technological developments in LTE Advanced Test Trials and techniques
  • Data on Carrier Aggregation with transfer speed surpassing 20MHZ and up to 100MHZ
  • Heterogeneous system arranging of blended extensive and little cells blended by utilizing Relay Node
  • Advanced Multicellular Coordination
  • Advantages of Multi-antenna techniques to boost peak throughput in excess of 3Gbit/s
  • Energy Saving and Optimisation Techniques
  • Affirmation of every significant highlight of the centre and interface
  • Specific aspects such as Security
  • VoLTE Call Flow, Procedures and Connectivity
  • Multiple Bearer Setup and QoS
  • GBR features
  • SIP Registration and Procedures including Registration and Emergency calls
  • Mobility, Roaming and Handover
  • Multiple Messaging Services and Sessions including Authentication

Day 2

  • Motivation for 5G
  • Identification of key research directions

Energy efficiency in 5G and Energy Cost evaluation framework

  • Metrics for efficiency
  • Evaluation framework
  • How to increase energy efficiency

SON as key enabler for 5G

  • SON in context of cellular networks?
  • Technique and saving potential
  • Framework
  • How Big Data can Empower SON?

Role of Hetnets in 5G networks

  • Understanding two tier HetNets
  • Green coverage expansion technologies
  • Performance analysis approaches

Backhaul for 5G

  • Wired & Wireless

Antenna Design for 5G

  • Basic parameters of Antenna
  • Antenna
    • Design
    • Types
    • Analysis Tools
    • Usage
  • Multi-band Antenna design for 5G
  • Features Of 5G:
    1. Advanced billing,
    2. Broadcasting of data
  • Integration of Voice over IP (VoIP) and G technology

Day 3

Site Survey with iBwave VIEWER (Hands-on exercises included throughout this session)

  • Open the Mobile Planner project in iBwave Viewer
  • Create a project, floor plan and zones
  • Understand and Select the default type of environment
  • Integration of the with wired network including macro cells
  • The measurement  techniques of Wi-Fi links and its Radio Frequency measurements
  • Draw on floor plans and create annotations
  • Demo review a project in iBwave Viewer including the cost of the design

Generate

  • Propagation maps for expected RSRP, RSCP, RSSI, throughput and handoff
  • Wi-Fi survey interpolation maps and Use SSID and Channel filters to analyse Wi-Fi coverage

Open discussion where we will also compare other tools and discuss which tool is better

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