Computing, IT Systems, and Emerging Technologies Switzerland

5G Network Architecture and Deployment Training Course

5G network architecture and deployment has moved from radio upgrade planning to whole-platform transformation, because service-based core design, Standalone migration, and network slicing now shape capacity, latency, and security outcomes across the full mobile stack.5G network architecture and deployment is the discipline of designing, validating, and operationalizing 5G Core, RAN, transport, and deployment models in line with 3GPP guidance and network performance targets. It enables professionals to assess migration readiness, configure deployment scenarios, and document architecture decisions that support low-latency and scalable services. For telecom network architects, RAN engineers, core network planners, solution architects, and 5G program leads, the pressure now comes from cloud-native integration, automation of network operations, and the need to defend every design choice with measurable KPIs and security controls.

This course bridges that gap with practical work on 3GPP release-driven architecture, SBA design, NSA-to-SA transition planning, and deployment artefacts such as migration maps, core function diagrams, RAN planning worksheets, and rollout decision logs. You leave with a structured way to turn 5G network architecture and deployment decisions into evidence-based designs that can be reviewed, implemented, and reported with confidence.

Duration
5 Days
Duration
Certificate
Certificate
Included
Delivery
Instructor-Led
Delivery
Level
Advanced
Level
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Nairobi Kenya
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5 Days
USD 1,800
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Kigali Rwanda
Mon - Fri
5 Days
USD 2,100
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Dubai United Arab Emirates (UAE)
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Zanzibar Tanzania
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Location Duration Fee Language
Nairobi, Kenya Mon - Fri (5 Days) USD 1,800 English See dates & reserve →
Kigali, Rwanda Mon - Fri (5 Days) USD 2,100 English See dates & reserve →
Dubai, United Arab Emirates (UAE) Mon - Fri (5 Days) USD 4,600 English See dates & reserve →
Zanzibar, Tanzania Mon - Fri (5 Days) USD 2,900 English See dates & reserve →
Abuja, Nigeria Mon - Fri (5 Days) USD 3,100 English See dates & reserve →
Addis Ababa, Ethiopia Mon - Fri (5 Days) USD 2,700 English See dates & reserve →
Mombasa, Kenya Mon - Fri (5 Days) USD 1,900 English See dates & reserve →
Cape Town, South Africa Mon - Fri (5 Days) USD 4,200 English See dates & reserve →
Johannesburg, South Africa Mon - Fri (5 Days) USD 3,800 English See dates & reserve →
Kampala, Uganda Mon - Fri (5 Days) USD 2,100 English See dates & reserve →
Pretoria, South Africa Mon - Fri (5 Days) USD 3,600 English See dates & reserve →
Lagos, Nigeria Mon - Fri (5 Days) USD 2,500 English See dates & reserve →
Arusha, Tanzania Mon - Fri (5 Days) USD 2,000 English See dates & reserve →
Dar es Salaam, Tanzania Mon - Fri (5 Days) USD 2,094 English See dates & reserve →
Accra, Ghana Mon - Fri (5 Days) USD 3,800 English See dates & reserve →
Bangalore, India Mon - Fri (5 Days) USD 4,600 English See dates & reserve →
Muscat, Oman Mon - Fri (5 Days) USD 4,800 English See dates & reserve →
Naivasha, Kenya Mon - Fri (5 Days) USD 1,900 English See dates & reserve →

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What You'll Master in This Training

Built by industry pros — practical insights, real-world examples, and strategies you can apply immediately.

Module 1: 5G Architecture Foundations

  • 5G design goals and service drivers
  • 3GPP Release 15, Release 16, and Release 17
  • EMBB, URLLC, and mMTC use cases
  • NSA and SA deployment models
  • Exercise: draft a 5G architecture context map
  • 5GC functions and service-based interfaces
  • Service-Based Architecture (SBA) principles
  • Control and User Plane Separation (CUPS)
  • PFCP awareness in user-plane routing
  • Exercise: build a 5GC function and interface diagram
  • 5G NR architecture and RAN roles
  • RRC, PDCP, RLC, and MAC layers
  • Functional split options in 5G RAN
  • Dual connectivity and anchor selection
  • Exercise: create a RAN protocol and split map
  • Coverage planning assumptions and link budget basics
  • Capacity planning with traffic growth scenarios
  • Spectrum planning across sub-6 and mmWave bands
  • KPI interpretation for throughput and latency
  • Exercise: calculate a RAN planning worksheet
  • Non-Standalone deployment sequencing
  • Standalone deployment readiness criteria
  • EPC interworking considerations
  • Dual connectivity transition logic
  • Exercise: design an NSA to SA migration roadmap
  • Fronthaul, midhaul, and backhaul planning
  • Telco cloud for virtualized 5GC
  • MEC positioning for low-latency services
  • Automation in cloud-native core operations
  • Exercise: build a transport and cloud readiness checklist
  • 5GC security trust model
  • Identity handling with SUPI and SUCI
  • Network slicing governance and isolation
  • SEPP awareness for inter-network protection
  • Exercise: produce a 5G security and governance matrix
  • Architecture decision records and rollout logs
  • KPI dashboards for deployment tracking
  • Risk register for core and RAN dependencies
  • Stakeholder briefing for launch approval
  • Exercise: create a deployment pack and rollout summary

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About the Course

Organizations investing in 5G want designs they can prove, not just diagrams they can present. In 5G network architecture and deployment, you need to show competence in 3GPP-aligned design logic, Service-Based Architecture (SBA), Standalone and Non-Standalone deployment planning, RAN and core separation, and KPI-driven capacity reasoning. This matters because the architecture choices you make affect latency, throughput, roaming behavior, security exposure, and how quickly a network can support new services.

This course turns scattered technical knowledge into a practical design system for 5G network architecture and deployment. You will practice using 3GPP architecture concepts, SBA component mapping, NSA-to-SA migration analysis, network slicing design, PFCP awareness, and CUPS planning, while also being introduced to adjacent topics such as MEC and EPC interworking at an overview level. What you will learn: you will analyze 5G network architecture, map core and RAN functions, and design deployment options for Standalone and Non-Standalone scenarios. You will also build a migration plan, a deployment checklist, and a technical reporting pack that can support stakeholder review.

Advanced 5G work is often constrained by spectrum availability, transport readiness, legacy EPC dependencies, security review cycles, and uneven cloud maturity. This 5G network architecture and deployment course is designed for professionals who must make credible decisions under those constraints, where the cost of a weak design appears later as poor coverage, unstable handover behavior, or delayed service launch.

Target Audience

This course is built for telecom professionals who already work with mobile network design and now need to handle 5G network architecture and deployment decisions with greater precision. It suits people who must translate architecture choices into migration plans, planning outputs, security considerations, and executive-ready technical reports.

  • 5G Network Architect responsible for core and RAN design decisions
  • RAN Planning Engineer handling coverage, capacity, and deployment assumptions
  • Core Network Engineer validating 5GC functions and service flows
  • Telecom Solution Architect shaping enterprise and operator deployment options
  • Mobile Network Optimization Engineer reviewing KPI and performance impacts
  • 5G Program Manager coordinating rollout dependencies and milestones
  • Transport Network Engineer aligning fronthaul, midhaul, and backhaul readiness
  • Network Security Architect assessing 5GC security and identity controls
  • EPC Migration Specialist planning NSA to SA transition paths
  • Telco Cloud Architect supporting cloud-native 5GC deployment models

Course Objectives

This course equips you to plan, execute, and measure 5G network architecture and deployment initiatives that improve design credibility, support deployment readiness, and strengthen technical governance.

  • Assess 5G readiness using 3GPP architecture concepts, NSA and SA deployment models, and migration constraints.
  • Apply Service-Based Architecture (SBA) principles to map 5GC functions, interfaces, and service dependencies.
  • Design a 5G core architecture diagram with CUPS, network slicing, and EPC interworking considerations.
  • Build a 5G RAN deployment plan using coverage, capacity, and spectrum planning assumptions.
  • Calculate deployment trade-offs using KPI logic for latency, throughput, and scaling scenarios.
  • Evaluate architecture choices against 3GPP release assumptions, security risks, and transport limitations.
  • Navigate stakeholder review requirements for core, RAN, transport, and security design sign-off.
  • Synthesize findings into a deployment brief, migration roadmap, and technical reporting pack.

Requirements & Prerequisites

Prerequisites: You should already have working knowledge of LTE/4G architecture, radio access terminology, and IP networking fundamentals. Familiarity with 3GPP concepts, core network functions, and basic telecom planning terminology will help you get the most from the 5G network architecture and deployment exercises. Delivery note: No coding is required. Advanced concepts are taught at the operational application level, with architecture design and planning exercises based on real deployment scenarios, not production engineering.

Local Application and Business Return in Switzerland

How participants can apply the training in local operating conditions, and the return their organisation can plan for.

How participants apply this

Participants apply this course by mapping current Swiss mobile assets to a 5G migration path, identifying which sites can remain on NSA and which should move to SA. They use architecture diagrams and rollout logs to align radio, core, and transport teams on deployment dependencies, security controls, and service impacts. In day-to-day work, they can review vendor proposals against measurable design requirements instead of accepting feature claims at face value. The course also helps them communicate trade-offs to management in terms of rollout speed, resilience, and future service readiness.

Expected ROI

Within 6 to 12 months, teams usually gain faster and more consistent design reviews because architecture choices are documented in a standard way. That reduces rework between radio, core, and transmission groups and helps avoid deployment errors that create service instability or delayed acceptance. Leaders also get better visibility into which investments are needed now, which can wait, and which are prerequisites for Standalone or slicing-enabled services. The practical ROI is strongest when the organization is planning phased 5G modernization across multiple sites or regions.

Training Methodology

This is a practical, outcome-driven course designed to turn 5G network architecture and deployment aspiration into measurable action and credible reporting.

Methodology includes:

  • Calculate coverage and capacity assumptions using RAN planning worksheets and KPI inputs.
  • Simulate an NSA-to-SA migration decision under spectrum and transport constraints.
  • Assess a 5GC design against SBA, CUPS, and 3GPP release assumptions.
  • Map stakeholder approval paths for radio, core, transport, and security sign-off.
  • Review cases from telecom operator, private network, IoT, and smart-city deployments.
  • Build a rollout brief and architecture register under time and budget limits.
  • Reflect on design assumptions using KPI benchmarks, latency targets, and security findings.

Upcoming Sessions

Next available dates worldwide

Virtual

(Zoom) Training
USD 1,050
29th Jun-3rd Jul 2026
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Nairobi

Kenya
USD 1,800
6th Jul-10th Jul 2026
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Kigali

Rwanda
USD 2,100
6th Jul-10th Jul 2026
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Dubai

United Arab Emirates (UAE)
USD 4,600
29th Jun-3rd Jul 2026
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Addis Ababa

Ethiopia
USD 2,700
29th Jun-3rd Jul 2026
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Abuja

Nigeria
USD 3,100
13th Jul-17th Jul 2026
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Zanzibar

Tanzania
USD 2,900
20th Jul-24th Jul 2026
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Mombasa

Kenya
USD 1,900
29th Jun-3rd Jul 2026
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Cape Town

South Africa
USD 4,200
20th Jul-24th Jul 2026
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Johannesburg

South Africa
USD 3,800
6th Jul-10th Jul 2026
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Pretoria

South Africa
USD 3,600
29th Jun-3rd Jul 2026
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Kampala

Uganda
USD 2,100
13th Jul-17th Jul 2026
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Lagos

Nigeria
USD 2,500
29th Jun-3rd Jul 2026
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Certification

Recognized credentials that advance your career

Participants who complete the 5G Network Architecture and Deployment Training Program earn a Trainingcred Certificate of Achievement, demonstrating professional competence and alignment with global standards in learning and development.

NITA Accredited

Accredited by the National Industrial Training Authority, ensuring programs meet nationally recognized standards of quality and relevance.

CPD Certified

Recognized by the CPD Certification Service, ensuring every program meets internationally benchmarked standards of professional excellence.

Each certification reflects practical expertise, strategic insight, and readiness to excel in today's competitive, fast-evolving workplace.

Why this course earns its place on your CV

Accredited training, practitioner trainers, and peers on the same career track — the three things real expertise is built on.

Effective Learning & Skill Development

  • Build expertise with structured, outcome-driven learning.
  • Equip individuals and teams with skills that grow with industry needs.
  • Reinforce learning through real-world scenarios, case studies and practical exercises.

Career Growth & Professional Advancement

  • Apply what you learn with a proven methodology that ensures lasting impact.
  • Develop immediately usable skills that translate directly into workplace success.
  • Gain the expertise needed for career advancement and leadership roles.

Training Optimization & Learning Excellence

  • Tailor training to industry-specific challenges and organizational goals.
  • Use data-driven insights and automation to enhance training effectiveness.
  • Evaluate progress and ensure long-term learning success.

Tools and platforms relevant to this field

Examples Switzerland teams may encounter, and that may be featured in training where they support the confirmed course scope.

3

These are field-relevant examples, not a promise that every tool will be covered. Exact coverage depends on the confirmed course scope, participant needs, and delivery format.

  • Ericsson Radio System Ericsson
    Used by mobile network teams to plan and deploy RAN upgrades, including 5G radio integration and site evolution from earlier generations.
  • Nokia AirScale Nokia
    Used for radio access modernization and capacity planning in multi-generation mobile networks.
  • Huawei CloudCore Huawei
    Used where operators deploy or evaluate cloud-native core network functions for 5G migration.

Real Results from Real Professionals

Thousands of professionals have transformed their careers through our training programs. Now, it's your turn.

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Local market advisory

Course relevance for Switzerland

A country-specific view of market pressure, regulatory context, and practical business return behind this training.

  • Market context
  • Regulatory fit
  • Business application

Why this course matters in Switzerland

A market-specific advisory on the operating pressures this course helps teams address.

Switzerland’s 5G market is shaped by dense enterprise demand, cross-border connectivity needs, and a telecom environment where operators must balance new 5G Standalone capabilities with careful migration from existing networks. This course matters because architecture choices in 5G now affect service quality, security, automation, and investment timing across RAN, core, and transport layers. It is especially relevant for telecom network architects, core planners, RAN engineers, and program leads who need to decide when to keep hybrid NSA designs, when to move to Standalone, and how to document deployment decisions that can survive technical and business review.
Migration decisions are now platform decisions

In Switzerland, 5G planning is no longer just about radio coverage; it determines whether operators can support cloud-native core functions, service-based architecture, and future slicing-ready services without repeated redesign.

Enterprise use cases raise the bar on design discipline

Swiss industrial and business customers typically expect predictable latency, resilience, and security controls, so architecture teams need evidence-based deployment plans rather than vendor-led feature lists.

Hybrid deployment knowledge reduces rollout risk

Because NSA and SA can coexist during migration, teams that understand both models can phase investments, protect service continuity, and avoid stranded infrastructure decisions.

This training is timely because 5G deployment choices are now tied to operational risk, upgrade sequencing, and the ability to support more advanced enterprise services. For Swiss operators and integrators, the immediate challenge is converting legacy mobile assets into a more automated, cloud-aligned architecture without disrupting existing coverage or service commitments.

Regulatory context in Switzerland

The local regulators, laws, and frameworks shaping this discipline, with the curriculum mapped to what teams need to know.

2

Regulators

  • OFCOM Federal telecommunications authority relevant to spectrum, telecom policy, and mobile network deployment oversight in Switzerland.
  • FOCBS Relevant to 5G security expectations, incident awareness, and cyber-risk guidance for network operators and integrators.

Frameworks the course aligns with

  • 01 Federal Act on Telecommunications · 1997
  • 02 Federal Act on Data Protection · 2020

Frequently Asked Questions

Got questions? We've gathered the answers to common queries to help you feel confident and informed.

Yes. NSA remains important during migration because many networks will operate in mixed-mode for some time, and planners need to understand how 5G NR behaves alongside the existing core. Knowing both modes helps teams avoid incompatible design choices and protect service continuity.

Service-based architecture changes the 5G core from fixed functional blocks into modular network functions that communicate through defined services. For deployment teams, that means architecture, automation, and validation must be designed together rather than treated as separate tasks.

They should be able to produce migration maps, core function diagrams, RAN planning worksheets, and rollout decision logs. Those artefacts make it easier to review design assumptions, justify deployment sequencing, and track changes across stakeholders.

Yes. Private and industrial 5G projects depend on clear architecture choices around coverage, capacity, latency, and security, so the same planning discipline used in public networks is highly transferable. The course helps teams turn requirements into deployable designs rather than ad hoc pilots.

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