5G Mobile Communications

Architecture & New Radio

LTE was and is a success story. Now 5G is set to follow and surpass LTE. 5G offers even greater performance, higher quality and security than LTE and offers maximum flexibility to meet the requirements of a wide range of user groups and applications.

In addition to its traditional use in public mobile networks, 5G is also being used on a massive scale for private networks. Industrial companies, research institutions, ports and airports have secured local 5G frequencies and started to set up 5G campus networks. These are also an opportunity for SMEs to put sophisticated Industry 4.0 and IoT scenarios into practice.

This 5G training introduces you to the topic - the requirements for 5G, the areas of application, standardization in 3GPP and evolution from LTE. The basics of 5G are explained in detail: network architecture, identities, security, spectrum & radio transmission, performance & limits as well as specific 5G features. Aspects of public 5G mobile communications are explained as well as special features and variants of private 5G campus networks.

Course Contents

5G applications & user groups
Public & private networks (campus networks)
3GPP Evolution & 5G Standardization
The 5G Network (5GS)
The 5G UE
The 5G Radio Network NG-RAN (gNB)
The 5G Core Network 5GC
AMF, AUSF, NSSF, NEF, PCF, SMF, UDM, UDR, UPF
5G Identities (SUPI, SUCI, PEI & 5G GUTI)
Security in the 5G system
5G Spectrum (public, private & unlicensed)
Licenses for public & private 5G networks in Germany
Low, Mid & High Bands
5G & Health (optional)
The 5G radio interface New Radio
NR Coordination: OFDMA, FDD & TDD
Modulation & Coding
Carrier Aggregation & Dual-Connectivity
Massive MIMO
Latency
Peak Rates
Mobile Edge Computing (MEC)
Network Slicing
Variants of private networks (campus networks)
Isolated & integrated private networks
Virtual private networks as network slice
LAN-type services for private networks
Migration: 5G Standalone & Non-Standalone
Release 16 & 17 Highlights
5G for Massive Internet of Things (IoT)
Integration of NB-IoT & LTE-M in 5G
5G & Autonomous Driving: eV2X
5G Satellite Systems
Evolution from 5G towards 6G

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

High-quality color prints of the ExperTeach documentation
Exclusive folder in an elegant design
Document pouch in backpack shape
Elegant LAMY ballpoint pen
Practical notepad

The Premium Print Package can be added during the ordering process for € 175,- plus VAT (only for classroom participation).

Target Group

This 5G training is aimed at anyone who is already familiar with LTE and now wants to understand the successor standard 5G, its architecture and operating principles as well as its use in public and private networks.

Knowledge Prerequisites

Basic knowledge of LTE, corresponding to the courses Mobile communications today - From GSM to LTE to 5G or LTE, LTE-Advanced & 5G - Everything about current mobile communications, is necessary

1	Warming Up: From 1G to 6G
1.1	Beginnings of Mobile Communications
1.2	Cellular Mobile Communications: from1G to 6G
1.3	3GPP Evolution

2	5G—Requirements, Applications, and Standardization
2.1	5G Requirements
2.2	5G Applications
2.3	5G Operator
2.4	5G Standardization
2.5	5G Timetable & Evolution
2.6	Flexibility Is Key

3	The 5G Network 5GS
3.1	Overview: The 5G System 5GS
3.2	The 5G User Equipment
3.3	5G Radio Access Network NG RAN
3.3.1	Functional Splitting of the gNB
3.3.2	D-RAN vs. C-RAN
3.3.3	Open RAN & Virtual RAN
3.3.4	5G Base Station Classes
3.3.5	Deployment Options
3.4	5G Core Network 5GC
3.4.1	UPF & SMF
3.4.2	AMF
3.4.3	AUSF & UDM
3.4.4	PCF & NEF
3.4.5	NSSF, SMSF & 5G-EIR
3.4.6	5G Data Storage: UDR & UDSF
3.5	Charging in 5GS: The CHF
3.6	5G Interfaces
3.7	Interworking with the EPC
3.8	Non-3GPP Access / WLAN
3.9	IP Multimedia Subsystem IMS

4	5G Identities
4.1	Hierarchical Structuring
4.2	Subscriber- and Equipment-related Identities
4.3	Location-based Identities

5	5G Security
5.1	Overview of 5G Security
5.2	PEI Check
5.3	Protection of the Subscriber Identity
5.4	Authentication
5.4.1	Start of the Authentication
5.4.2	Authentication Vector and Key Distribution
5.4.3	Mutual Authentication
5.5	Encryption and Integrity Check
5.5.1	Start of Encryption and Integrity Check
5.5.2	Integrity Check
5.5.3	Encryption
5.5.4	5G Security Algorithm
5.6	SEPP: Security Edge Protection Proxy

6	5G Spectrum
6.1	Frequencies and Network Coverage
6.2	WRC 2015 & 2019
6.3	5G Spectrum and Application Options
6.4	5G Band—3GPP-specified
6.5	Absorption in the Millimeter Wave Range
6.6	5G Frequency Allocation in Germany
6.6.1	Public Networks: Frequency Auction 2019
6.6.2	Local Licenses for Campus Networks

7	New Radio NR
7.1	New Radio Overview
7.2	Duplex Transmission
7.3	New Radio Multiple Access: OFDMA
7.3.1	E-UTRA & NR Transmission: OFDMA
7.3.2	Scalable Bandwidths
7.4	5G Timing & Delays
7.5	Link Adaptation: Modulation and Encoding
7.6	MIMO: Multi-Antenna Transmission
7.6.1	MIMO in NR
7.6.2	Massive MIMO
7.7	5G Data Rates
7.8	Carrier Aggregation & Dual Connectivity
7.9	NR Summary

8	5G Key Aspects
8.1	5G Key Aspects—Overview
8.2	5G Peak Rates
8.3	QoE—Better User Experience
8.3.1	CoMP
8.3.2	Ultra-Dense Network UDN
8.3.3	Integrated Access & Backhaul IAB
8.4	Latency& Mobile Edge Computing
8.5	Network Slicing
8.6	Migration from 4G to 5G
8.7	DSS & HetNet

9	Release 16– Central Extensions
9.1	3GPP Release 16 as 5G Phase 2
9.2	NR-U: 5G in Unlicensed Spectrum
9.3	5G for IoT Applications: Cellular IoT
9.4	5G & Autonomous Driving: Cellular V2X
9.5	5G Private / Networks
9.5.1	Private Networks versus Public Networks
9.5.2	Private 5G Networks—Operator Models
9.5.3	SNPN—Isolated Private Network
9.5.4	Private Network, Partially Integrated
9.5.5	Virtual Private Network as NW Slice

10	Summary and Preview
10.1	Summary
10.2	New Radio Summary
10.3	Preview: 3GPP Release 17
10.4	What\qs next?

11	Optionally: Mobile Communications & Health
11.1	Electromagnetic Waves
11.2	Thermal and Non-thermal Effects
11.3	Radio Spectrum and Usage
11.4	Limits for Mobile Communications
11.5	Studies on the Topic Mobile Communications and Health
11.6	Fakes & Facts

A	List of Abbreviations

Classroom training: Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!
Hybrid training: Hybrid training means that online participants can additionally attend a classroom course. The dynamics of a real seminar are maintained, and the online participants are able to benefit from that. Online participants of a hybrid course use a collaboration platform, such as WebEx Training Center or Saba Meeting. To do this, a PC with browser and Internet access is required, as well as a headset and ideally a Web cam. In the seminar room, we use specially developed and customized audio- and video-technologies. This makes sure that the communication between all persons involved works in a convenient and fault-free way.
Online training: You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.
Tailor-made courses: You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.

You can find the complete description of this course with dates and prices ready for download at as PDF.

Course Contents

5G applications & user groups
Public & private networks (campus networks)
3GPP Evolution & 5G Standardization
The 5G Network (5GS)
The 5G UE
The 5G Radio Network NG-RAN (gNB)
The 5G Core Network 5GC
AMF, AUSF, NSSF, NEF, PCF, SMF, UDM, UDR, UPF
5G Identities (SUPI, SUCI, PEI & 5G GUTI)
Security in the 5G system
5G Spectrum (public, private & unlicensed)
Licenses for public & private 5G networks in Germany
Low, Mid & High Bands
5G & Health (optional)
The 5G radio interface New Radio
NR Coordination: OFDMA, FDD & TDD
Modulation & Coding
Carrier Aggregation & Dual-Connectivity
Massive MIMO
Latency
Peak Rates
Mobile Edge Computing (MEC)
Network Slicing
Variants of private networks (campus networks)
Isolated & integrated private networks
Virtual private networks as network slice
LAN-type services for private networks
Migration: 5G Standalone & Non-Standalone
Release 16 & 17 Highlights
5G for Massive Internet of Things (IoT)
Integration of NB-IoT & LTE-M in 5G
5G & Autonomous Driving: eV2X
5G Satellite Systems
Evolution from 5G towards 6G

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

High-quality color prints of the ExperTeach documentation
Exclusive folder in an elegant design
Document pouch in backpack shape
Elegant LAMY ballpoint pen
Practical notepad

The Premium Print Package can be added during the ordering process for € 175,- plus VAT (only for classroom participation).

Target Group

Knowledge Prerequisites

Basic knowledge of LTE, corresponding to the courses Mobile communications today - From GSM to LTE to 5G or LTE, LTE-Advanced & 5G - Everything about current mobile communications, is necessary

1	Warming Up: From 1G to 6G
1.1	Beginnings of Mobile Communications
1.2	Cellular Mobile Communications: from1G to 6G
1.3	3GPP Evolution

2	5G—Requirements, Applications, and Standardization
2.1	5G Requirements
2.2	5G Applications
2.3	5G Operator
2.4	5G Standardization
2.5	5G Timetable & Evolution
2.6	Flexibility Is Key

3	The 5G Network 5GS
3.1	Overview: The 5G System 5GS
3.2	The 5G User Equipment
3.3	5G Radio Access Network NG RAN
3.3.1	Functional Splitting of the gNB
3.3.2	D-RAN vs. C-RAN
3.3.3	Open RAN & Virtual RAN
3.3.4	5G Base Station Classes
3.3.5	Deployment Options
3.4	5G Core Network 5GC
3.4.1	UPF & SMF
3.4.2	AMF
3.4.3	AUSF & UDM
3.4.4	PCF & NEF
3.4.5	NSSF, SMSF & 5G-EIR
3.4.6	5G Data Storage: UDR & UDSF
3.5	Charging in 5GS: The CHF
3.6	5G Interfaces
3.7	Interworking with the EPC
3.8	Non-3GPP Access / WLAN
3.9	IP Multimedia Subsystem IMS

4	5G Identities
4.1	Hierarchical Structuring
4.2	Subscriber- and Equipment-related Identities
4.3	Location-based Identities

5	5G Security
5.1	Overview of 5G Security
5.2	PEI Check
5.3	Protection of the Subscriber Identity
5.4	Authentication
5.4.1	Start of the Authentication
5.4.2	Authentication Vector and Key Distribution
5.4.3	Mutual Authentication
5.5	Encryption and Integrity Check
5.5.1	Start of Encryption and Integrity Check
5.5.2	Integrity Check
5.5.3	Encryption
5.5.4	5G Security Algorithm
5.6	SEPP: Security Edge Protection Proxy

6	5G Spectrum
6.1	Frequencies and Network Coverage
6.2	WRC 2015 & 2019
6.3	5G Spectrum and Application Options
6.4	5G Band—3GPP-specified
6.5	Absorption in the Millimeter Wave Range
6.6	5G Frequency Allocation in Germany
6.6.1	Public Networks: Frequency Auction 2019
6.6.2	Local Licenses for Campus Networks

7	New Radio NR
7.1	New Radio Overview
7.2	Duplex Transmission
7.3	New Radio Multiple Access: OFDMA
7.3.1	E-UTRA & NR Transmission: OFDMA
7.3.2	Scalable Bandwidths
7.4	5G Timing & Delays
7.5	Link Adaptation: Modulation and Encoding
7.6	MIMO: Multi-Antenna Transmission
7.6.1	MIMO in NR
7.6.2	Massive MIMO
7.7	5G Data Rates
7.8	Carrier Aggregation & Dual Connectivity
7.9	NR Summary

8	5G Key Aspects
8.1	5G Key Aspects—Overview
8.2	5G Peak Rates
8.3	QoE—Better User Experience
8.3.1	CoMP
8.3.2	Ultra-Dense Network UDN
8.3.3	Integrated Access & Backhaul IAB
8.4	Latency& Mobile Edge Computing
8.5	Network Slicing
8.6	Migration from 4G to 5G
8.7	DSS & HetNet

9	Release 16– Central Extensions
9.1	3GPP Release 16 as 5G Phase 2
9.2	NR-U: 5G in Unlicensed Spectrum
9.3	5G for IoT Applications: Cellular IoT
9.4	5G & Autonomous Driving: Cellular V2X
9.5	5G Private / Networks
9.5.1	Private Networks versus Public Networks
9.5.2	Private 5G Networks—Operator Models
9.5.3	SNPN—Isolated Private Network
9.5.4	Private Network, Partially Integrated
9.5.5	Virtual Private Network as NW Slice

10	Summary and Preview
10.1	Summary
10.2	New Radio Summary
10.3	Preview: 3GPP Release 17
10.4	What\qs next?

11	Optionally: Mobile Communications & Health
11.1	Electromagnetic Waves
11.2	Thermal and Non-thermal Effects
11.3	Radio Spectrum and Usage
11.4	Limits for Mobile Communications
11.5	Studies on the Topic Mobile Communications and Health
11.6	Fakes & Facts

A	List of Abbreviations

Classroom training: Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!
Hybrid training: Hybrid training means that online participants can additionally attend a classroom course. The dynamics of a real seminar are maintained, and the online participants are able to benefit from that. Online participants of a hybrid course use a collaboration platform, such as WebEx Training Center or Saba Meeting. To do this, a PC with browser and Internet access is required, as well as a headset and ideally a Web cam. In the seminar room, we use specially developed and customized audio- and video-technologies. This makes sure that the communication between all persons involved works in a convenient and fault-free way.
Online training: You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.
Tailor-made courses: You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.

You can find the complete description of this course with dates and prices ready for download at as PDF.

ExperTeach Identifier: MO5G

Duration & Prices

Prices excl. V.A.T.

Classes in Germany

4 days

€ 2,495

Classes in Austria

4 days

€ 2,495

Classes in Switzerland

4 days

€ 3,390

Online training

4 days

€ 2,495

+ Premium Print Package (Optional)

€ 175

			Date	City
20250520	0	3	05/20/-05/23/25	Düsseldorf
20250520	0	3	05/20/-05/23/25	Live Online
20250630	2	3	06/30/-07/03/25	Frankfurt
20250630	2	3	06/30/-07/03/25	Live Online
20250728	2	3	07/28/-07/31/25	München
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20250826	2	3	08/26/-08/29/25	Live Online
20250826	2	3	08/26/-08/29/25	Wien
20251007	2	3	10/07/-10/10/25	München
20251007	2	3	10/07/-10/10/25	Live Online
20251007	2	1	10/07/-10/10/25	Zürich
20251103	2	3	11/03/-11/06/25	Frankfurt
20251103	2	3	11/03/-11/06/25	Live Online
20251209	2	3	12/09/-12/12/25	Hamburg
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