LTE System Engineering

Machine to Machine communications has always been possible from the first days of GSM however the focus until the advent of mobile broadband has always been voice. This has now changed with support for Cellular IoT included in the Release 13 3GPP specifications. This course therefore explains how both IP and Non IP data can be delivered across an LTE network utilizing the enhancements of LTE-M, NB-IoT and MTC. In so doing, several IoT focussed network efficiencies are discussed along with support for device monitoring, triggering etc. Finally, support for interworking with GPRS is also addressed including an explanation of EC-GSM-IoT.
This course will contain the following sections:


  • Duration: 1.5 hours
  • Topic areas covered include
  • LTE Drivers
  • LTE Evolution
  • LTE Advanced
  • LTE Advanced Pro
  • E-UTRAN Architecture
  • UE and eNodeB
  • Femto Cells
  • Next Generation eNB
  • EPC Architecture
  • MME, S-GW and PDN-GW
  • LTE Interfaces and Protocols
  • Uu, X2, S1-MME, S1-U, S5/S8, S11 and SGi
  • PCC Architecture
  • PCRF and PCEF
  • IMS Architecture
  • CSCF, HSS and Media Servers
  • Duration: 1.5 hours
  • Topic areas covered include
  • Frequency Bands
  • Modulation Techniques and Coding
  • QPSK, 16QAM and 64QAM Basics
  • OFDMA Basics
  • LTE Frame Structure
  • LTE Resource Allocation
  • Carrier Aggregation
  • Spectrum Sharing
  • MTC (Machine Type Communications)
  • Full-Dimension MIMO
  • Duration: 3 hours
  • Topic areas covered include
  • LTE Mobility and Session Management
  • ECM Connected and ECM Idle
  • EPS Bearer Contexts
  • LTE Identities
  • Radio Resource Control
  • Cell Selection, PLMN Selection and Cell Re-selection
  • RRC establishment
  • Initial Attach
  • Default EPS Bearer Establishment
  • Combined Attach
  • Network Detach
  • Activity: Signalling analysis of an Initial Attach and Default EPS Bearer Establishment procedure using Mpirical’s NetX
  • Duration: 1 hour
  • Topic areas covered include
  • Key Distribution
  • EPS Authentication and Key Agreement
  • IPSec and LTE
  • Duration: 1.5 hours
  • Topic areas covered include
  • LTE QoS Characteristics
  • TFTs and Quality of Service
  • Establishing EPS Bearers
  • Network Initiated: Activate, Modify and Delete
  • Mobile Initiated: Activate, Modify and Delete
  • Modifying EPS Bearers
  • Releasing EPS Bearers
  • Activity: Signalling analysis of EPS bearer related procedures using Mpirical’s NetX
  • Duration: 1.5 hours
  • Topic areas covered include
  • Service Request
  • Paging in LTE
  • S1 Release
  • E-UTRAN and MME triggered
  • Activity: Signalling analysis of MO and MT data using Mpirical’s NetX
  • Duration: 2 hours
  • Topic areas covered include
  • Idle Mode Mobility
  • Cell Re-selection
  • Tracking Area Updates
  • X2 Handover
  • S1 Handover
  • Mobility within the EPC
  • GTP Mobility
  • Roaming and the IPX
  • Activity Signalling analysis of a Tracking Area Update and Handover procedures using Mpirical’s NetX
  • Duration: 2 hours
  • Topic areas covered include
  • Mobility Scenarios
  • E-UTRAN to UTRAN Packet Switched Handover
  • E-UTRAN to GERAN Packet Switched Handover
  • UTRAN to E-UTRAN Packet Switched Handover
  • GERAN to E-UTRAN Packet Switched Handover
  • Duration: 4 hours
  • Topic areas covered include
  • CSFB and VoLTE Comparison
  • Circuit Switched Fallback
  • CSFB Architectural Requirements
  • CSFB Initial Procedures
  • Options for Fallback
  • CSFB Call Procedures
  • MO Call (No Support for PS HO)
  • MO Call (Support for PS HO)
  • MT Call (No Support for PS HO)
  • Packet Switched Handover
  • CSFB Call Delay Factors
  • CSFB SMS Procedures
  • CSFB MO SMS Procedure
  • CSFB MT SMS Procedure
  • Voice over LTE
  • VoLTE End to End Architecture
  • VoLTE Initial Procedures
  • VoLTE Call Procedures
  • VoLTE Media - Codecs
  • SIP Signalling Exchange
  • Establishing Dedicated Bearers
  • Tearing Down the Call
  • VoLTE Interworking
  • Interworking with Legacy Voice Networks
  • Handing Over to 2G/3G (SR-VCC)
  • Wi-Fi Calling
  • Activity: Signalling analysis of CSFB and VoLTE procedures.
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Duration 18 hours
CPD Learning Credits 18
Accreditation ITP Certified

This course has been independently assessed and accredited by both the ITP (Institute of Telecommunications Professionals) and the CPD Standards Office (Continuing Professional Development). Their marks of excellence awarded to Mpirical provides you with the recognition that the learning you have completed conforms to best practice and is appropriate for inclusion in a formal training record. Our certified courses mean you can be certain you’re receiving the highest quality training. Both the ITP and the CPD use independent specialists to regularly assess all our products and services. Including our Learning.

ITP Certified

The ITP is the UK’s leading independent institution for people who work in telecommunications. It is dedicated to promoting the professional development of members through Professional Registration, training, mentoring and qualifications. The ITP collaborates with regulators, government associations and other leading bodies on projects that are important to the future of the industry. It has worked with businesses including; BT, Cable & Wireless Worldwide, Alcatel-Lucent, Huawei and Vodafone.

CPD Certified

By providing independent accreditation, the CPD improve the quality of continuing professional development. Their marks of excellence for training providers demonstrate to individual professionals that the learning activity conforms to best practice and is appropriate for inclusion in a formal record. Find out more about your certification at:

www.mpirical.com/certification

ITP Certified

Mpirical classes have been developed in accordance with the technical specifications published by the 3GPP. As such the 3GPP have granted Mpirical Limited the right to use the 3GPP logo to identify specifications, compliant products and services.

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