Cellular IoT System Engineering Training in Netherlands

  • Learn via: Classroom
  • Duration: 2 Days
  • Price: Please contact for booking options
We can host this training at your preferred location. Contact us!

With the current increase in machine to machine communications or IoT, the 3GPP technologies have been enhanced to support this new type of data transfer. This course focuses on the 4G or LTE network and the various modifications which have been introduced in Release 12, 13 and 14. These include new network infrastructure, modified air interfaces (NB-IoT / LTE-M) not to mention support for NIDD or Non IP Data Delivery. Various network optimizations will also be addressed along with new procedures dealing with network monitoring. Finally, mobility will be reviewed before culminating with a brief look at how Cellular IoT interworks with legacy 2G and 3G networks.

Section 1 - Cellular IoT Network Landscape

Topic areas covered include:

  • IoT Reference Model.
  • The Cellular IoT Landscape:
    • 2G, 3G, 4G and 5G.
  • Cellular IoT Network Architecture:
    • Device / Sensor:
      • ME, SIM, eSIM.
      • Remote SIM Provisioning.
    • E-UTRAN:
      • eNB.
    • Evolved Packet Core:
      • MME, S-GW, PDN-GW, HSS.
      • SMS over 4G.
    • Machine Type Communication Enhancements:
      • Direct Model.
      • Indirect Model.
    • Machine Type Communication Network Functions:
      • SCS, SCEF, MTC-IWF, MTC-AAA.
    • Dedicated Core Network.
Section 3 - Cellular IoT Initial Procedures

Topic areas covered include:

  • Attaching to the Network:
    • PLMN and Network Selection.
    • Cell Selection.
    • Registration.
  • EPS Mobility Management:
    • EMM States.
  • EPS Session Management:
    • QoS Class Identifier.
  • Attach and EPS Bearer Establishment:
    • EPS Mobility Management and State Transition.
    • Attach without PDN Connectivity (NB-IoT).
  • Dedicated Core Network:
    • DECOR.
    • eDECOR.
  • Cellular IoT Enhancements:
    • Power Save Mode.
    • Extended Discontinuous Reception.
    • Deploying PSM and eDRX.
Section 4 - Cellular IoT Operation – IP Data Delivery

Topic areas covered include:

  • ECM Idle to ECM Connected Transition.
  • Uplink IP Data Delivery:
    • Device Initiated Service Request.
    • Detailed Signalling Evaluation.
  • Downlink IP Data Delivery:
    • Network Initiated Paging.
    • Detailed Signalling Evaluation.
  • S1 Release:
    • eNB Triggered S1 Release.
    • MME Triggered S1 Release.
  • Cellular IoT Optimization:
    • Control Plane CIoT EPS Optimization:
      • Uplink IP Data Delivery.
      • Downlink IP Data Delivery.
      • Detailed Signalling Evaluation.
    • User Plane CIoT EPS Optimization:
      • Connection Suspension.
      • Connection Resumption.
      • Connection Resumption on Different eNB.
Section 5 - Cellular IoT Operation – Non IP Data Delivery

Topic areas covered include:

  • Non IP Data Delivery.
  • SGi Based Delivery:
    • Reliable Data Service.
    • Uplink Non IP Data Delivery.
    • Downlink Non IP Data Delivery.
    • Detailed Signalling Evaluation.
  • SCEF Based Delivery:
    • Connection Establishment:
      • NIDD Configuration / Onboarding.
    • Uplink Non IP Data Delivery.
    • Downlink Non IP Data Delivery.
    • Connection Release.
    • Detailed Signalling Evaluation.
  • Serving PLMN and APN Rate Control:
    • Serving PLMN Rate Control.
    • APN Rate Control.
Section 6 - Cellular IoT Operation – Monitoring Devices

Topic areas covered include:

  • Monitoring Devices.
  • Event Monitoring Configuration:
    • Common Parameters.
    • Event Monitoring via HSS.
    • Event Monitoring direct with MME.
    • Event Monitoring Events from HSS or MME.
    • Event Monitoring via PCRF.
  • Monitoring Scenarios:
    • Location Reporting:
      • Location Determination at MME.
      • Number of UEs Present in a Geographical Area.
    • Change in IMSI and IMEI/SV Association.
    • Availability after DDN Failure:
      • Notification of Availability after DDN Failure.
  • Device Triggering:
    • Device Triggering Procedure.
  • MSISDN-less MO-SMS.
Section 7 - Cellular IoT Mobility

Topic areas covered include:

  • Introduction.
  • NB-IoT Mobility:
    • Cell Reselection.
    • RRC Connection Resume.
    • Tracking Area Update.
  • LTE-M Mobility:
    • X2 Handover.
    • S1 Handover.
  • Roaming:
    • Interworking – SCEF.
    • SGi Based Roaming.
Section 8 - Cellular IoT – Interworking with 2G and 3G

Topic areas covered include:

  • 2G and 3G Cellular IoT Architecture:
    • The 2G Options.
    • The 3G Options.
    • Machine Type Communication Enhancements.
  • EC-GSM-IoT:
    • Extended Coverage.
    • Reduced Energy Consumption.
    • Re-use Existing Infrastructure.
    • Enhanced Security.
  • Non IP Data Delivery on 2G and 3G:
    • Gi Based Delivery.
    • SCEF Based Delivery.


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Upcoming Trainings

Join our public courses in our Netherlands facilities. Private class trainings will be organized at the location of your preference, according to your schedule.

03 januari 2025 (2 Days)
Amsterdam, Rotterdam
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08 januari 2025 (2 Days)
Amsterdam, Rotterdam
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03 januari 2025 (2 Days)
Amsterdam, Rotterdam
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24 januari 2025 (2 Days)
Amsterdam, Rotterdam
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08 januari 2025 (2 Days)
Amsterdam, Rotterdam
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07 februari 2025 (2 Days)
Amsterdam, Rotterdam
Classroom / Virtual Classroom
24 januari 2025 (2 Days)
Amsterdam, Rotterdam
Classroom / Virtual Classroom
07 februari 2025 (2 Days)
Amsterdam, Rotterdam
Classroom / Virtual Classroom
Cellular IoT System Engineering Training Course in Netherlands

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