4G LTE: Technology, Architecture, Protocols & KPIs

4G LTE: Technology, Architecture, Protocols & KPIs, available at $59.99, has an average rating of 4.42, with 146 lectures, based on 1287 reviews, and has 5218 subscribers.

You will learn about Everything they need to know to get started with 4G LTE Standardization of 4G LTE Evolution to an all IP system in 4G 4G LTE Design Targets Overall 4G EPS Architecture 4G LTE Access Network Architecture And Functions Nodes in 4G LTE Evolved Packet Core Architecture And Their Functions 4G LTE/EPS Interfaces 4G EPS/EPS Network Identifiers, MMEGI, MMEI, GUMMEI, TAI, ECGI,APN 4G LTE Identifier, IMEI, IMSI, MSISDN Number, GUTI, M-TMSI, S-TMSI Tracking Areas in 4G LTE MME Pool Areas. S-GW Service Areas UE State Management, RRC State, ECM State, EMM State, LTE EPS Bearer Types, Default And Dedicated Bearers LTE EPS Bearer Quality of Service, QoS Class Identifiers, ARP (Allocation and Retention Priority) 4G LTE Attach Procedure, UE Registration, Default Bearer Establishment 4G Tracking Area Update Procedure and Paging Procedure, Intra E-UTRAN Handover (X2-based), Intra E-UTRAN Handover (S1-based) UE Triggered Service Request in 4G LTE This course is ideal for individuals who are Network and system engineers who want to pursue their carrier in Telecom Industry or Students and working professionals who want understanding of 4G LTE systems. or Anyone who want to learn protocols and procedures involved in 4G LTE systems. or Anyone who want to learn protocols and procedures involved in 5G systems. It is particularly useful for Network and system engineers who want to pursue their carrier in Telecom Industry or Students and working professionals who want understanding of 4G LTE systems. or Anyone who want to learn protocols and procedures involved in 4G LTE systems. or Anyone who want to learn protocols and procedures involved in 5G systems.

Enroll now: 4G LTE: Technology, Architecture, Protocols & KPIs

Summary

Title: 4G LTE: Technology, Architecture, Protocols & KPIs

Price: $59.99

Average Rating: 4.42

Number of Lectures: 146

Number of Published Lectures: 146

Number of Curriculum Items: 146

Number of Published Curriculum Objects: 146

Original Price: $19.99

Quality Status: approved

Status: Live

What You Will Learn

Everything they need to know to get started with 4G LTE
Standardization of 4G LTE
Evolution to an all IP system in 4G
4G LTE Design Targets
Overall 4G EPS Architecture
4G LTE Access Network Architecture And Functions
Nodes in 4G LTE Evolved Packet Core Architecture And Their Functions
4G LTE/EPS Interfaces
4G EPS/EPS Network Identifiers, MMEGI, MMEI, GUMMEI, TAI, ECGI,APN
4G LTE Identifier, IMEI, IMSI, MSISDN Number, GUTI, M-TMSI, S-TMSI
Tracking Areas in 4G LTE
MME Pool Areas. S-GW Service Areas
UE State Management, RRC State, ECM State, EMM State,
LTE EPS Bearer Types, Default And Dedicated Bearers
LTE EPS Bearer Quality of Service, QoS Class Identifiers, ARP (Allocation and Retention Priority)
4G LTE Attach Procedure, UE Registration, Default Bearer Establishment
4G Tracking Area Update Procedure and Paging Procedure,
Intra E-UTRAN Handover (X2-based), Intra E-UTRAN Handover (S1-based)
UE Triggered Service Request in 4G LTE

Who Should Attend

Network and system engineers who want to pursue their carrier in Telecom Industry
Students and working professionals who want understanding of 4G LTE systems.
Anyone who want to learn protocols and procedures involved in 4G LTE systems.
Anyone who want to learn protocols and procedures involved in 5G systems.

Target Audiences

Network and system engineers who want to pursue their carrier in Telecom Industry
Students and working professionals who want understanding of 4G LTE systems.
Anyone who want to learn protocols and procedures involved in 4G LTE systems.
Anyone who want to learn protocols and procedures involved in 5G systems.

In the continuously evolving and growing landscape of mobile telecommunications, the 3GPP (3rd Generation Partnership Project) 5G standard has just been released. But legacy 4G technology is still being deployed in the market. Since the commercial launch of LTE in 2010, LTE technology has been widely deployed by Mobile operators around the world. Today LTE is the dominant market technology and it will continue to do so for many years to come.

So for those who aspire to start career in mobile telecom companies, it is quite rewarding to invest in the 4G LTE technology. For those already in Mobile network operators this will enhance their portfolio and career prospects.

This LTE training is comprehensive and indepth, so that you may get started with this LTE cellular technology as soon as possible. This course is designed to provide you with necessary functional knowledge possible in shortest possible time.

The course comes with 100% MONEY-BACK GUARANTEE.

This course is targeted for:

Telecom professionals
Telecom students
Networking students

Course Contents:

Section 1: Introduction

Evolution To 4G LTE

Standardization of 4G LTE/LTE Advanced

Three Major Parts of 4G LTE Network

Nomenclature For 4G Network

Evolution to an all IP system in 4G LTE

4G LTE Design Targets

Section 2: Overall 4G EPS Architecture

Evolved Node B (eNB) Functions in 4G LTE

MME Selection by eNB

4G LTE EPS Bearer

4G Evolved Packet Core (EPC) Architecture

Mobility Management Entity (MME)

Serving Gateway (S-GW)

Packet Data Network Gateway (P-GW)

Policy and Charging Rules Function (PCRF)

Policy and Charging Enforcement Function (PCEF)

Home Subscriber Server (HSS)

Section 3: 4G EPS Interfaces

GTPv1-U Traffic Interfaces

GTPv2-C Interfaces

S1AP (S1 Application Protocol) on S-MME Interface

X2 Interface Protocols

Diameter Protocol Interfaces

Section4: Identifiers in 4G LTE Network

4G LTE Network Identifiers-MMEGI, MMEI, GUMMEI, TAI, ECGI, Access Point Name

UE Identifiers-IMEI, IMSI, MSISDN, GUTI, M-TMSI, S-TMSI, MMEC

Tracking Areas in 4G LTE

MME Pool Areas in 4G LTE

Serving Gateway Service Areas in 4G LTE

Section 6: UE State Management in 4G LTE

Section 7: Characteristics of EPS Bearer in 4G LTE

EPS Bearer Types: Default And Dedicated Bearers

EPS Bearer States: 1. Active 2. Inactive

4G EPS Bearer Quality of Service (QoS)

QoS Class Identifiers (QCIs) in EPS Bearer

Allocation And Retention Priority (ARP) in EPS Bearer

Template Flow Template Function in EPS Bearer

Section 8: 4G LTE Evolved Packet Core Procedure

UE POwer On Procedure-LTE Attach Procedure, UE Registration, Default Bearer Establishment

Tracking Area Update Procedure

UE Paging Procedure

X2-based Handover Procedure in 4G LTE

S1 Based Handover in 4G LTE

UE Triggered Service Request in 4G LTE

Section 9: Security in 4G LTE

Basic 4G Security Terminologies

4G LTE Roaming Architecture

4G Authentication And Key Agreement (AKA) Procedure

4G LTE Security Key Hierarchy

Encryption And Integrity Protection Algorithms in 4G LTE

Section 10: Voice Over LTE (VoLTE)

What are SRVCC and CSFB in VoLTE?

Voice Codecs For VoLTE

Session Initiation Protocol in VoLTE

IP Multimedia Subsystem (IMS) in 4G VoLTE

Call Session Control Functions (CSCFs) in IMS

Telephony Application Server (TAS) in IMS

Service Centralization And Continuity (SCC) Application Server in IMS

IMS Connectivity Requirement & EPS Bearers for IMS in VoLTE

UE Registration with IMS in VoLTE-PCSCF Discovery

UE Registeration with IMS in VoLTE-Signal Flow

SIP signalling for Voice Over LTE (VoLTE) Call

IMS Media Bearer Establishment For Voice over LTE (VoLTE)

Tear Down Of Voice Over LTE (VoLTE) Call

Section 10: LTE Air Interface

Course Curriculum

Chapter 1: Introduction

Lecture 1: How to use the English subtitles for this Course?

Lecture 2: Evolution To 4G LTE

Lecture 3: Standardization of 4G LTE/LTE Advanced

Lecture 4: Three Major Parts of 4G LTE Network

Lecture 5: Nomenclature For 4G Network

Lecture 6: Evolution to an all IP system in 4G LTE

Lecture 7: 4G LTE Design Targets

Chapter 2: Overall 4G EPS Architecture

Lecture 1: 4G LTE/EPS Architecture

Lecture 2: Evolved Node B (eNB) Functions in 4G LTE

Lecture 3: MME Selection by eNB

Lecture 4: 4G LTE EPS Bearer

Chapter 3: 4G Evolved Packet Core (EPC) Architecture

Lecture 1: Mobility Management Entity (MME)

Lecture 2: Serving Gateway (S-GW)

Lecture 3: Packet Data Network Gateway (P-GW)

Lecture 4: Policy and Charging Rules Function (PCRF)

Lecture 5: Policy and Charging Enforcement Function (PCEF)

Lecture 6: Home Subscriber Server (HSS)

Chapter 4: 4G EPS Interfaces

Lecture 1: Introduction

Lecture 2: GPRS Tunneling Protocol (GTP)

Lecture 3: 1. GTPv1-U Traffic Interfaces

Lecture 4: 2. GTPv2-C Interfaces

Lecture 5: 3. S1AP (S1 Application Protocol) on S-MME Interface

Lecture 6: 4. X2 Interface Protocols

Lecture 7: 5. Diameter Protocol Interfaces

Chapter 5: Identifiers in 4G LTE Network

Lecture 1: 4G LTE Network Identifiers-MMEGI, MMEI, GUMMEI, TAI, ECGI

Lecture 2: 4G LTE Network Identifiers-Access Point Name

Lecture 3: UE Identifiers-IMEI, IMSI, MSISDN

Lecture 4: 4G UE Identifiers-GUTI, M-TMSI, S-TMSI, MMEC

Lecture 5: Tracking Areas in 4G LTE

Lecture 6: MME Pool Areas in 4G LTE

Lecture 7: Serving Gateway Service Areas in 4G LTE

Chapter 6: UE State Management in 4G LTE

Lecture 1: Introduction to UE State Management

Lecture 2: 1. Radio Resource Control (RRC) State

Lecture 3: 2. EPS Connection Management (ECM) state

Lecture 4: 3. EPS Mobility Management (EMM) State

Lecture 5: Combined UE State Diagram in 4G LTE

Chapter 7: Characteristics of EPS Bearer in 4G LTE

Lecture 1: EPS Bearer Types: Default And Dedicated Bearers

Lecture 2: EPS Bearer States: 1. Active 2. Inactive

Lecture 3: 4G EPS Bearer Quality of Service (QoS)

Lecture 4: QoS Class Identifiers (QCIs) in EPS Bearer

Lecture 5: Allocation And Retention Priority (ARP) in EPS Bearer

Lecture 6: Template Flow Template Function in EPS Bearer

Chapter 8: 4G LTE Evolved Packet Core Procedures

Lecture 1: UE POwer On Procedure-LTE Attach Procedure

Lecture 2: LTE Attach Procedure-UE Registration

Lecture 3: LTE Attach Procedure-Default Bearer Establishment

Lecture 4: Tracking Area Update Procedure

Lecture 5: UE Paging Procedure

Lecture 6: X2-based Handover Procedure in 4G LTE

Lecture 7: S1 Based Handover in 4G LTE

Lecture 8: UE Triggered Service Request in 4G LTE

Lecture 9: Dedicated Bearer Creation in 4G LTE

Lecture 10: UE Initiated Detach Procedure

Chapter 9: 4G LTE Security

Lecture 1: Basic 4G Security Terminologies

Lecture 2: 4G LTE Roaming Architecture

Lecture 3: 4G Authentication And Key Agreement (AKA) Procedure

Lecture 4: 4G LTE Security Key Hierarchy

Lecture 5: Encryption And Integrity Protection Algorithms in 4G LTE

Chapter 10: Voice Over LTE (VoLTE) in 4G

Lecture 1: Introduction to VoLTE using IMS

Lecture 2: What are SRVCC and CSFB in VoLTE?

Lecture 3: Voice Codecs For VoLTE

Lecture 4: Session Initiation Protocol in VoLTE

Lecture 5: Services Provided By SIP

Lecture 6: SIP Requests (Methods)

Lecture 7: IP Multimedia Subsystem (IMS) in 4G VoLTE

Lecture 8: Call Session Control Functions (CSCFs) in IMS

Lecture 9: Telephony Application Server (TAS) in IMS

Lecture 10: Service Centralization And Continuity (SCC) Application Server in IMS

Lecture 11: IMS Connectivity Requirement & EPS Bearers for IMS in VoLTE

Lecture 12: UE Registration with IMS in VoLTE-PCSCF Discovery

Lecture 13: UE Registeration with IMS in VoLTE-Signal Flow

Lecture 14: 3rd Party Registration in IMS

Lecture 15: Registration event subscription in IMS

Lecture 16: SIP signalling for Voice Over LTE (VoLTE) Call

Lecture 17: IMS Media Bearer Establishment For Voice over LTE (VoLTE)

Lecture 18: Tear Down Of Voice Over LTE (VoLTE) Call

Lecture 19: Single Radio Voice Call Continuity (SR-VCC)

Chapter 11: 4G LTE Air Interface

Lecture 1: LTE FDD-TDD Modes

Lecture 2: 4G LTE Wireless Access Technology

Lecture 3: Basics Of Orthogonal Frequency Division Multiplexing (OFDM)

Lecture 4: OFDM In Is Simplest Form

Lecture 5: OFDM Implementation (Simplified Model)

Lecture 6: Multipath Environment And Cyclic Prefix

Lecture 7: Scalabale Channel Bandwidth in LTE

Lecture 8: 4G LTE Frame Structure

Lecture 9: Resource Block in LTE

Lecture 10: Resource Element in LTE

Lecture 11: Adaptive Modulation And Coding in LTE

Lecture 12: SU-MIMO Vs MU-MIMO

Lecture 13: Resource Grid in 4G LTE

Instructors

Dr. Moazzam Tiwana
Assistant Professor/Telecom Engineer

Rating Distribution

1 stars: 7 votes
2 stars: 23 votes
3 stars: 153 votes
4 stars: 541 votes
5 stars: 563 votes

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