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Analyzing the E-UTRAN

Learning Time:
3 Days
Level:
Advanced
Delivery:
Live onsite Live online
CPD Credits:
18
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Course Details

This course builds on the information provided in LTE System Engineering in order to equip you with a concise knowledge of the LTE E-UTRAN. In particular, the detailed operation of S1AP, X2AP, RRC and NAS is examined in context with a variety of key LTE procedures such as network attach, bearer establishment and mobility (both Intra and Inter LTE mobility). Finally, QoS, SON and Relays are also explored as part of the overall E-UTRAN architecture.

Philip Nugent

Philip Nugent

Mpirical Trainer
Phil heads up Mpirical’s technical development, advising on the latest technologies and assisting the Mpirical team with his wealth of both historical and current knowledge. Phil’s specialist area is the mobile radio and RAN space, originally focussing on 2G and 3G technologies but more recently, heavily embedded with 5G New Radio for both Mpirical and customer specific projects.
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Live Training

Live training options include live, instructor-led onsite or online for teams of 10 or more.

Module 1
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E-UTRAN

What is the E-UTRAN?

  • User Equipment.
  • E-UTRAN.
  • EPC.
  • Femto Cells.

LTE Interfaces and Protocols:

  • E-UTRAN Interfaces:
    • S1-MME, S1-U, X2, Uu.
  • EPC Interfaces.

Network Identities:

  • UE Identities.
  • E-UTRAN and EPC Identities.

Activity: Using NetX map to discover the E-UTRAN interfaces and protocols.

Module 2
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LTE Procedures

E-UTRA Signalling:

  • Stratums:
    • NAS and AS.
  • NAS Messages.
  • LTE States.

The E-UTRA Protocols:

  • Radio Resource Control.

Initial Procedures:

  • Cell Search.
  • Cell Selection.
  • PLMN Selection.
  • Cell Selection.
  • Random Access.
  • RRC Connection.
  • LTE Bearers.
  • Initial Attach.

Paging.

System Information:

  • Acquisition of SI Messages:
    • MIB, SIB1. SI Messages.

Discontinuous Reception.

Power Control:

  • Downlink Power Control.
  • Uplink Power Control.

UE Receiver Sensitivity:

  • Other Measurements.

Radio Link Monitoring:

  • RLF.

MIMO Modes:

  • SU-MIMO and MU-MIMO.

Automatic Neighbour Relation:

  • ANR Procedure.
  • Possible ANR Architecture.

Activity: NetX based analysis of LTE Procedures.

Module 3
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QoS Session Management

QoS in Packet Switched Networks.

QoS in LTE:

  • Policy.
  • Bearers and Bearer Managers.
  • EPS Radio and Access Bearer.
  • The Default Bearer.
  • Bearer Identities and Templates.

L3 Packet Classification:

  • Packet Classification (DiffServ) - IPV4.
  • Packet Classification (DiffServ) - IPv6.
  • L2 Packet Classification.
Module 4
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S1 Interface and Procedures

The E-UTRAN Interfaces.

The E-UTRAN Control Plane:

  • E-UTRAN Protocol Specifications.

The E-UTRAN S1 Application Protocol.

S1 Application Protocol Elementary Procedures.

S1 Functions and Procedures.

Example S1 Procedures:

  • NAS Transport.
  • Initial Context Setup.
  • E-RAB Establishment.
  • S1 Setup.
  • eNB and MME Configuration Update.
  • Handover.
  • Path Switch.
  • Status Transfer.
  • UE Context Release.
  • Reset.
  • S1 Trace Procedures.
  • Location Reporting Control.
  • Overload.
  • Paging.

Activity: NetX based analysis of S1 Interface and Procedures.

Module 5
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GTP Protocol

GPRS Tunnelling Protocol.

GTPv1-U Header:

  • Optional Fields.
  • Extension Header.

GTPv1-U Procedures:

  • Path Management.
  • UDP Header and Port Numbers.

Summary of GTPv2-C:

  • GTP Messages.
  • GTP Procedures.

Activity: NetX based analysis of the GTP Protocol.

Module 6
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LTE PDCP, RLC and MAC

The E-UTRA Protocol Stack.

Packet Data Convergence Protocol:

  • PDCP Services.
  • PDCP Profiles.
  • PDCP Headers.

Radio Link Control:

  • Transparent Mode.
  • Unacknowledged Mode.
  • Acknowledged Mode.
  • RLC PDUs.

Medium Access Control:

  • Services Expected from Physical Layer.
  • LTE Logical and Transport Channels.
  • RNTI Identities:
    • C-RNTI, SI-RNTI, P-RNTI, RA-RNTI.
  • MAC Headers.
  • Random Access Process:
    • RAR and Timing.

Activity: NetX based analysis of LTE PDCP, RLC and MAC.

Module 7
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LTE Physical Layer

Frequency Bands and Channels:

  • Carrier Frequency and EARFCN.
  • Channel Bandwidths.
  • Channel Bandwidths per Operating Band.
  • Default UE Tx-Rx Frequency Separation.

Resource Grid and Resource Blocks:

  • Downlink PRB Parameters.
  • Uplink PRB Parameters.
  • Virtual Resource Blocks.

The LTE Downlink Physical Channels:

  • Downlink Channel for Initial Access.
  • Downlink Synchronization Signals (FDD).

Downlink Reference Signals:

  • Cell Specific Reference Signals.
  • UE Specific Reference Signals.
  • Broadcast Information.
  • PCFICH.
  • PDCCH.
  • PHICH.
  • PDSCH.

The LTE Uplink Physical Channels:

  • Multiplexing of Control Signalling and UL-SCH Data.
  • Uplink Data Transmission.
  • PUCCH (Physical Uplink Control Channel).

Uplink Reference Signals:

  • Demodulation Reference Signal.
  • Sounding Reference Signal.
  • PRACH.

Hybrid ARQ:

  • HARQ Techniques in LTE.

Channel Coding.

Module 8
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E-UTRAN Mobility

LTE Mobility:

  • LTE Cell Planning.

Mobility Functional Architecture:

  • eNB.
  • MME.
  • Tracking Area.

Mobility in the LTE Active State.

Measurements:

  • Gap Configuration.
  • Timing.

Handover Process:

  • X2 Handover Request and Response.
  • RRC Connection Reconfiguration.
  • Random Access.
  • SN Status Transfer and Status.

Data Forwarding:

  • RLC-AM DRBs.
  • RLC-UM DRBs.
  • SRB Handling.

S1 Based Handover (Relocation).

Activity: NetX based analysis of E-UTRAN Mobility procedures.

Module 9
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X2 Interface and Procedures

The X2 Interface.

Architecture of the X2 Application Protocol:

  • Functions of the X2 Application Protocol.

X2 Elementary Procedures:

  • X2 Basic Mobility Procedures - Handover Preparation.
  • Handover Request.
  • Handover Request Acknowledge.
  • Handover Preparation Failure.
  • SN Status Transfer.
  • UE Context Release.
  • Handover Cancel.
  • X2 Load Indication.
  • X2 Resource Status Reporting.
  • X2 Setup.
  • X2 eNB Configuration.

Activity: NetX based analysis of X2 procedures.

Module 10
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E-UTRAN Interworking

E-UTRAN Interworking:

  • 3GPP Interworking.

E-UTRAN to UTRAN/GERAN RAU Procedure:

  • E-UTRAN to UTRAN/GERAN Handover Procedure.
  • Inter-RAT Cell Reselection or Cell Change Order to E-UTRAN.

UTRAN to E-UTRAN Handover Procedure.

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Live Training

Live training options include live, instructor-led onsite or online for teams of 10 or more.

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Step 1

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Step 2
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Step 3
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Live Training

Live training options include live, instructor-led onsite or online for teams of 10 or more.

Live Training

Frequently Asked Questions

Will I receive certification for completing the course?

Yes, all our courses provide a shareable certificate of completion following the test of understanding.

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On-demand courses are accessible immediately following purchase. Each course will have a different access period ranging from 3-6 months on average. You can continue to access the Mpirical learning platform after your course licence expires; however, you won’t be able to view any course content or learning tools unless you are a paid customer.

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All students benefit from automatic access to our ‘Ask the Trainer’ feature with an on-demand course purchase. You will also get access to our acclaimed network visualisation tool, NetX.*

*NetX is not included with the Mini Telecoms MBA course or partner training.

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Offline access is not currently available. You must use a connected device to access the course and learning tools. However, course pdfs and reference documents are downloadable.

Is there recommended follow-on training?

Yes, we do recommend follow-on training courses within the Mpirical learning platform.

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Our live courses are generally reserved for teams and enterprises of 10 or more. If you’d like to learn more about purchasing a single course to be delivered at your location or online, please get in touch: enquiries@mpirical.com.