Huawei LTE Radio Network Functionality

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Course Name: Huawei LTE Radio Network Functionality Target Group: Technical managers, consultants, communications professionals, Technical consultant engineers, network professionals and Engineers working on LTE Network. Course Objectives: On completion of this course, the participants will be able to: LTE Network Architecture and their functionality Idle Mode Behavior of UE in LTE Radio Connection and their Supervision Power control ,scheduling and link adaption techniques Mobility management and Automated neighbor relation Introduction to LTE and its Network system LTE network Architecture and its network element Interfaces involved in network architecture. Connectivity of the Interfaces with User plane & control plane Frequency and time division multiplexing Downlink Air interface Uplink Air interface LTE e RAN Idle Mode Behavior Idle mode overview PLMN selection Cell selection & Cell re selection System information Reception Tracking area registration Paging monitoring procedure Radio Connection Supervision Management

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radio network parameter

Transcript of Huawei LTE Radio Network Functionality

Course Name:Huawei LTE Radio Network Functionality

Target Group: Technical managers, consultants, communications professionals, Technical consultant engineers, network professionals and Engineers working on LTE Network.Course Objectives: On completion of this course, the participants will be able to:

LTE Network Architecture and their functionality Idle Mode Behavior of UE in LTE Radio Connection and their Supervision

Power control ,scheduling and link adaption techniques

Mobility management and Automated neighbor relation

Introduction to LTE and its Network system LTE network Architecture and its network element

Interfaces involved in network architecture. Connectivity of the Interfaces with User plane & control plane

Frequency and time division multiplexing

Downlink Air interface

Uplink Air interface

LTE e RAN Idle Mode Behavior

Idle mode overview PLMN selection

Cell selection & Cell re selection

System information Reception

Tracking area registration

Paging monitoring procedure

Radio Connection Supervision Management Radio resource control states Connection management State

Signaling radio bearers and radio access bearers

Protocols structure for user plane and control plane

Signaling procedures

RRC connection establishment

Attach and default bearers establishment

Dedicated bearer establishment

Tracking area update

Intra system handoverPower control in LTE

Uplink power control and downlink power control Closed loop and open loop power control

Fast and slow power control

Impact of the power control on services

Scheduling process in LTE Scheduling in MAC layer Uplink and downlink scheduling

Cross carrier scheduling

HARQ process and priority handling in MAC

Scheduling Request with ACK and NACK

Link Adaption Techniques in LTE Coding rate and modulation Link adaptation and robustness in LTE

Types of modulation helps to improve link adaptation

OFDMA transmitter and Receiver

Graph between Spectrum efficiency and radio Quality

3GPP modulation schemes defined in LTE

Mobility Management and Automated Neighbors planning Types of handover

Intra E-UTRA handover

Process of the handover

Measurement reports for handover EMM states of the Registration

ECM states in the LTE mobility Neighbor planning and Co sitting

SON Self organizing network

Intra Frequency automatic neighbor relations

Inter frequency/System automatic neighbor relations

TRA-FREQUENCY AUTOMATIC NEIGHBOUR RELATIONS 542 Training Methods

Lecture

Evaluation and feedback of the ParticipantsDuration: 5 daysNo. of Participants: 15