LTE Protocols and  Procedures Training

Duration: 2 days

TRAINING PATH

LTE Protocols and Procedures

OEA15 Lecture, Lab, Demo 2d

Prerequisites

  • Successful completion of the following courses::
  • LTE Air Interface

Who should attend this course?

  • Service Engineer
  • Service Design Engineer
  • Network Design Engineer

On completion of this program, the participants will be able to:

  • Describe the evolution of cellular networks
  • Explain the main functions of EPS network element
  • List the interfaces in EPS and the protocol of EPS interfaces
  • Explain how signaling takes place between the UE and the EPC
  • Brief the main functions of Non Access Stratum(NAS), Radio Resource Control (RRC), Packet
  • Data Convergence Protocol (PDCP) Radio Link Control (RLC), Medium Access Control (MAC), the
  • physical layer and their relations
  • Explain the purpose of EPS Bearer Services and eUTRA Radio Bearer
  • Explain the concept, principle and signaling flow of typical procedure, such as UE access
  • procedure, paging, TAU, handover etc.

 


LTE ERAN 3.0 BASIC FEATURES AND ALGORITHMS

OEO51 LECTURE 3.5D

Duration: 3.5 working days

Target Audience

  • System Engineer
  • Service Engineer
  • Service Planning Engineer
  • Service Design Engineer
  • Network Design Engineer

Prerequisites

  • Successful completion of the following courses:
  • LTE Air Interface
  • LTE Protocols and Procedures

Objectives

On completion of this program, the participants will be able to:

  • Outline idle mode
  • Describe PLMN selection
  • Describe cell selection and cell reselection
  • Config cell selection
  • Config cell reselection measurement
  • Describe system information reception
  • Config SIB
  • Describe tracking area registration
  • Describe paging monitoring procedure
  • Outline mobility management
  • Describe intra-frequency handover
  • Describe inter-frequency handover
  • Describe inter-rat handover
  • Set measurement configuration
  • Set handover related parameters
  • Outline power control
  • Describe downlink power control
  • Describe uplink power control
  • Set initial power
  • Outline scheduling
  • Describe downlink scheduling
  • Describe uplink scheduling
  • Describe scheduling deployment strategy
  • Describe basic principles of QoS management
  • Describe QoS management policies
  • Describe QoS management methods
  • List when to use QoS management
  • Outline MIMO feature
  • Describe multiple-antenna reception/ transmission MIMO
  • Describe multiple-antenna transmission MIMO
  • Describe adaptive mode selection and switching of MIMO
  • Set adaptive MIMO
  • Describe PDCCH/PUCCH resource management feature
  • Parameters
  • Outline LTE voice solutions
  • Outline CS Fallback
  • Describe CS Fallback procedure
  • Draw network architecture for CS Fallback to UTRAN/GERAN
  • Describe CS Fallback to UTRAN/GERAN
  • Select CS Fallback mechanisms
  • Perform configuration on eNodeB for CS Fallback

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