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5-Day Instructor-Led · 3GPP Rel-17 / 18 / 19

Engineer 5G
Non-Terrestrial Networks
end to end.

From satellite radio adaptation and SIB19 / NTN-Config gNB setup to LEO / MEO / GEO link-budget design — a focused, NTN-only masterclass that closes with a customer-ready planning case study, built live in vendor-neutral open-source labs.

0 Days · ILT
0 Modules
0 Hands-on labs
3 Orbits planned
ntn-planner · drag the nodes
input · mission
Coverage target
Direct-to-handheld
satellite orbit
LEO · 600 km
MEO · 8 000 km
GEO · 35 786 km
frequency band
FR1 · S-band 2.0 GHz
link engine
FSPL + G/T + margin
TR 38.821 method
output · ntn plan
OrbitLEO
One-way delay~2–7 ms
DopplerVery high
Handover~6 min
5
Days · Virtual ILT / Classroom
3×
3GPP Releases · 17 / 18 / 19
8
Reproducible open-source labs
LEO·GEO
LEO / MEO / GEO link budgets
1
Customer-ready capstone plan
Course Overview

A focused, vendor-neutral path to satellite-grade 5G.

Terrestrial 5G is covered only as the minimum baseline needed to reason about NTN. The rest of the week is what makes satellite-based 5G genuinely different — long delay and Doppler, 3GPP-based gNB and core configuration, satellite mobility and beam management, and full orbit / link-budget engineering.

Positioning

NTN-only and 3GPP-anchored: the same NR / 5GC protocols are adapted for the satellite link, not replaced. Every parameter, IE and formula is traced to its specification and release.

Target audience
  • RF / RAN planning & optimization engineers moving into satellite-5G
  • 5G Core engineers owning 5GC ↔ NTN integration
  • Transport, gateway & satellite backhaul engineers
  • Network architects & NTN solution designers
  • Pre-sales, bid & technical strategy teams
Prerequisites
  • Working knowledge of 4G LTE & basic 5G NR (RAN + core)
  • Familiarity with IP networking & basic Linux CLI for labs
  • No satellite experience assumed — orbital & link-budget fundamentals built from first principles
Learning Outcomes

What you can do on Friday afternoon.

  • Explain end-to-end NTN architecture and transparent vs. regenerative payload models per Rel-17/18/19
  • Map the 3GPP NTN roadmap — TA, Doppler, HARQ, RedCap, store-and-forward — to each release
  • Read and configure SIB19 / NTN-Config, Koffset, Kmac, common & UE-specific TA, ephemeris & TA reporting
  • Plan 5GC integration: UPF placement, tracking-area & mobility, slicing, TN/NTN steering, verified UE location
  • Design beam & satellite mobility incl. Conditional Handover with ephemeris triggers
  • Perform LEO / MEO / GEO link-budget calculations and select orbit, payload & spectrum
  • Define NTN KPIs & acceptance criteria
  • Produce a professional, customer-ready NTN planning report
Open-Source Lab Stack

Verified, not just described.

Hands-on labs use a reproducible, vendor-neutral stack so concepts are confirmed directly. Tooling can be tailored to your environment.

Reproducible NTN lab stack
LayerToolsUsed for
5G CoreOpen5GS5GC deployment, NAS / NGAP / PFCP capture, NTN core integration
RAN / UEUERANSIM, srsRANgNB / UE simulation, NTN delay profiles, SIB19 / RRC decode
Delay / impairmentLinux tc / netemInject LEO / MEO / GEO RTT, jitter and loss profiles
AnalysisWireshark, iperf3, Python / JupyterProtocol decode, throughput tests, delay / Doppler modelling
Orbit / planningSkyfield / Orekit, ns-3 / 5G-LENA NTNEphemeris (TLE), coverage & link-budget automation
Five-Day Map

The course, wired as a flow.

Each day is its own page — click any node to open it, then step through its sub-topics on the right.

Bring Practical 5G NTN Engineering to your team.

On completion, participants can explain 5G NTN architecture, evaluate LEO/MEO/GEO options, configure NTN-specific gNB (SIB19 / NTN-Config) and 5GC parameters, perform link-budget calculations, design beam & mobility plans, define KPIs, and produce a professional NTN planning report.