-
Mobile communications used to be a provider technology. Public network operators offer private and corporate customers mobile communications coverage, ideally nationwide and internationally.</p
5G aims to be the one wireless technology for all possible user groups and applications. In addition to public 5G networks, this also includes private 5G networks and 5G campus networks.
This 5G training is intended to give anyone interested in private 5G (P5G) networks, who wants to participate in the construction of P5G networks or who will be working with them, the necessary tools to understand 5G technology and the 5G network. The aim is to gain a general understanding of 5G in order to be able to communicate successfully and at eye level with colleagues, business partners and manufacturers/operators.
-
Course Contents
-
- Mobile radio basics
- Cellular systems, handover, roaming
- Multiple Access & Duplex Transmission
- Mobile radio evolution from 1G to 6G
- 5G usage profiles
- 5G standardization & schedule
- 3GPP Evolution
- The 5G network
- The 5G UE & the USIM
- The 5G radio network NG-RAN with gNB
- The 5GC core network & its functions
- 5G identities
- Security in the 5G system
- The 5G handover
- 5G radio interface New Radio
- 5G frequency ranges & bands
- Licenses for 5G Campus Networks
- Multiple Access: OFDMA Basics
- Duplex Transmission: FDD & TDD
- Modulation & Coding
- Carrier Aggregation
- 5G Antennas & Massive MIMO
- Latency times
- Peak rates & realistic data rates
- Mobile Edge Computing
- Network slicing
- WLAN vs. 5G
- Network convergence: 5G + WLAN + fixed network
- 5G Industrial IoT
- NB-IoT & LTE-M
- RedCap
- P5G operating models
- Positioning: Location in 5G
- Time Sensitive Communication
- Further use cases for 5G
- 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 € 200,- plus VAT (only for classroom participation). -
Target Group
-
This course is aimed at anyone who is interested in private 5G networks and needs a deeper understanding of 5G technology.
-
Knowledge Prerequisites
-
You should know the basics of telecommunications and have knowledge of radio technology (e.g. from TETRA, GSM, LTE or WLAN). Previous participation in the course Mobile Communications Today - From GSM to LTE to 5G is ideal.
-
Alternatives
-
If you are less interested in the technical details and more in the conceptual aspects of private 5G networks, we recommend the course 5G Campus - Architecture and Design Concepts.
If you are interested in 5G in general, we recommend: 5G Mobile Communications - Architecture & Radio for Public & Private Networks.
1 | Mobilfunk Basics |
1.1 | Mobilfunk: Die Anfänge |
1.2 | Zellulare Mobilfunknetze |
1.2.1 | Zelle, Zellgröße, Kapazität & Reichweite |
1.2.2 | Handover & Roaming |
1.2.3 | UE Status & Aufenthaltsort |
1.3 | Koordination der Funkschnittstelle |
1.3.1 | Duplexübertragung |
1.3.2 | Multiplexverfahren |
1.4 | Zellularer Mobilfunk: von 1G bis 6G |
1.5 | 3GPP Standardisierung & Evolution |
2 | 5G Standardisierung & Use Cases |
2.1 | Anforderungen an 5G/IMT-2020 |
2.2 | 5G Anwendungen/Use Cases |
2.3 | 5G Betreiber/Lizenzen |
2.4 | 5G Standardisierung |
2.5 | 5G Zeitplan & Evolution |
2.6 | Flexibilität als 5G Markenkern |
3 | Das 5G Netzwerk |
3.1 | Überblick: Das 5G System 5GS |
3.2 | Das 5G User Equipment |
3.2.1 | 5G USIM |
3.2.2 | 5G UE Power Class |
3.2.3 | 5G UE Power Control |
3.3 | 5G Radio Access Network NG RAN |
3.3.1 | Funktionale Aufsplittung des gNB |
3.3.2 | Distributed RAN vs. Centralized RAN |
3.3.3 | Open-RAN (O-RAN) |
3.3.4 | 5G Basisstations-Klassen/Sendeleistung |
3.3.5 | 5G Non-Standalone vs. 5G Standalone |
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 | UDR & UDSF |
3.5 | Charging im 5GS: Die CHF |
3.6 | 5G Interfaces/Service Based Architecture |
3.7 | Network Slicing |
3.8 | Mobile Edge Computing |
3.9 | IP Multimedia Subsystem IMS / Voice over NR |
4 | 5G Kennungen |
4.1 | Hierarchische Gliederung der Kennungen |
4.2 | Teilnehmer- & Equipment- bezogene Identitäten |
4.3 | Location-basierte Identitäten |
5 | 5G Sicherheit |
5.1 | Überblick 5G Sicherheit |
5.2 | Überprüfung des Endgerätes |
5.3 | Schutz der Teilnehmer-Identität |
5.4 | Authentication |
5.4.1 | Start der Authentication |
5.4.2 | Authentication Vector & Schlüsselverteilung |
5.4.3 | Gegenseitige Authentication |
5.5 | Verschlüsselung & Integritätsprüfung |
5.5.1 | Start Verschlüsselung & Integritätsprüfung |
5.5.2 | Integritätsprüfung |
5.5.3 | Verschlüsselung |
5.5.4 | 5G Sicherheitsalgorithmen |
5.6 | Sicherheit im 5G Netzwerk |
5.7 | SEPP: Security Edge Protection Proxy |
6 | 5G Frequenzen & Lizenzen |
6.1 | Frequenzen & Netzabdeckung |
6.2 | 5G Spektrum & Nutzungsmöglichkeiten |
6.3 | 5G Bänder: Frequenzbereich FR 1 & 2 |
6.4 | 5G Frequenzvergabe in Deutschland |
6.5 | Lokale Lizenzen für 5G Campus Netzwerke |
6.6 | NR-Unlicensed als Option für Private 5G |
7 | 5G Funkschnittstelle: New Radio NR |
7.1 | New Radio Überblick |
7.2 | 5G Duplexübertragung |
7.3 | 5G Multiple Access: OFDMA |
7.3.1 | OFDMA Grundlagen/Nutzung in LTE & 5G |
7.3.2 | Skalierbare Bandbreiten in 5G |
7.3.3 | 5G Bandbreiten für FR1 & FR2 |
7.4 | Sicherung der 5G Funkübertragung |
7.5 | 5G Timing & Latenz-Zeiten |
7.6 | Signalqualität: RSRP, RSRQ & RSSI |
7.7 | Link Adaptation: Modulation & Kodierung |
7.8 | Handover in 5G |
7.9 | Mobilfunk Antennentypen |
7.10 | MIMO: Multi-Antennen-Transmission |
7.10.1 | MIMO in NR |
7.10.2 | Massive MIMO |
7.11 | 5G Datenraten |
7.12 | Carrier Aggregation & Dual-Connectivity |
7.13 | NR Summary |
8 | QoS in 5G Netzwerken |
8.1 | 5G Anwendungen erfordern QoS |
8.2 | PDU Session |
8.3 | QoS Architektur in 5G |
8.4 | QoS Flow & QoS Profil |
8.5 | 5QI: QoS Charakteristiken & Anwendungen |
9 | Private 5G: Betriebsmodelle & Features |
9.1 | 5G für alle Wirtschaftszweige |
9.2 | Private 5G Netzwerke / 5G Campus |
9.2.1 | Private 5G Netze vs. Festnetz & WLAN |
9.2.2 | Private vs. Öffentliche Netzwerke |
9.3 | Private 5G Netze: Betriebsmodelle |
9.3.1 | SNPN: Isoliertes Privates 5G Netzwerk |
9.3.2 | SNPN mit RAN-Sharing |
9.3.3 | Privates 5G Netzwerk, teilweise integriert |
9.3.4 | Virtuelles Privates Netzwerk: Network Slice |
9.4 | Multicast & Broadcast Services MBS |
9.5 | Positionsbestimmung mit 5G |
9.5.1 | Anforderungen & 3GPP Roadmap |
9.5.2 | 5GS Architektur: Funktionen für Positioning |
9.5.3 | UE Positioning Methoden |
9.5.4 | Positioning Summary |
9.6 | Spektrum für Privates 5G |
9.7 | Time Sensitive Networking TSN |
9.7.1 | Time Sensitive Communication in 5G |
9.7.2 | Zeitsynchronisation im 5GS für TSN Support |
10 | WLAN vs. 5G / Konvergenz der Netzwerke |
10.1 | WLAN/WiFi |
10.1.1 | WLAN als IEEE Standard 802.11 |
10.1.2 | WLAN Evolution/Varianten |
10.1.3 | WiFi 6 & WiFi 7 |
10.2 | Technischer Vergleich: WLAN vs. 5G |
10.3 | Einsatz auf dem Campus: WLAN vs. 5G |
10.4 | Konvergente Netze: 5G mit WLAN & Festnetz |
10.5 | Konklusion: P5G mit 5G NR + WLAN + Festnetz |
11 | Industrial IoT |
11.1 | Industrial IoT Überblick |
11.2 | Funk-Technologien für das Internet of Things |
11.3 | 5G für alle Performance Level |
11.4 | LTE-M & NB-IoT |
11.4.1 | Cellular IoT Gerätekategorien |
11.4.2 | CIoT Integration in das 5G System |
11.4.3 | Weitere Cellular IoT Evolution |
11.5 | RedCap UEs |
11.5.1 | RedCap UEs - Rel. 17 |
11.5.2 | RedCap UEs – Release 18 |
11.6 | Ambient IoT |
12 | Zusammenfassung & Ausblick |
12.1 | 5G Zusammenfassung |
12.2 | Die 5G Evolution |
12.3 | Ausblick: Neue Einsatzgebiete & Dienste |
12.4 | Wie geht‘s weiter? |
13 | Optional: Mobilfunk & Gesundheit |
13.1 | Elektromagnetische Wellen |
13.2 | Thermische & nicht-thermische Effekte |
13.3 | Funk Spektrum & Nutzung |
13.4 | Grenzwerte für Mobilfunk |
13.5 | Studien zum Thema Mobilfunk & Gesundheit |
13.6 | Fakes & Fakten |
-
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.

-
Mobile communications used to be a provider technology. Public network operators offer private and corporate customers mobile communications coverage, ideally nationwide and internationally.</p
5G aims to be the one wireless technology for all possible user groups and applications. In addition to public 5G networks, this also includes private 5G networks and 5G campus networks.
This 5G training is intended to give anyone interested in private 5G (P5G) networks, who wants to participate in the construction of P5G networks or who will be working with them, the necessary tools to understand 5G technology and the 5G network. The aim is to gain a general understanding of 5G in order to be able to communicate successfully and at eye level with colleagues, business partners and manufacturers/operators.
-
Course Contents
-
- Mobile radio basics
- Cellular systems, handover, roaming
- Multiple Access & Duplex Transmission
- Mobile radio evolution from 1G to 6G
- 5G usage profiles
- 5G standardization & schedule
- 3GPP Evolution
- The 5G network
- The 5G UE & the USIM
- The 5G radio network NG-RAN with gNB
- The 5GC core network & its functions
- 5G identities
- Security in the 5G system
- The 5G handover
- 5G radio interface New Radio
- 5G frequency ranges & bands
- Licenses for 5G Campus Networks
- Multiple Access: OFDMA Basics
- Duplex Transmission: FDD & TDD
- Modulation & Coding
- Carrier Aggregation
- 5G Antennas & Massive MIMO
- Latency times
- Peak rates & realistic data rates
- Mobile Edge Computing
- Network slicing
- WLAN vs. 5G
- Network convergence: 5G + WLAN + fixed network
- 5G Industrial IoT
- NB-IoT & LTE-M
- RedCap
- P5G operating models
- Positioning: Location in 5G
- Time Sensitive Communication
- Further use cases for 5G
- 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 € 200,- plus VAT (only for classroom participation). -
Target Group
-
This course is aimed at anyone who is interested in private 5G networks and needs a deeper understanding of 5G technology.
-
Knowledge Prerequisites
-
You should know the basics of telecommunications and have knowledge of radio technology (e.g. from TETRA, GSM, LTE or WLAN). Previous participation in the course Mobile Communications Today - From GSM to LTE to 5G is ideal.
-
Alternatives
-
If you are less interested in the technical details and more in the conceptual aspects of private 5G networks, we recommend the course 5G Campus - Architecture and Design Concepts.
If you are interested in 5G in general, we recommend: 5G Mobile Communications - Architecture & Radio for Public & Private Networks.
1 | Mobilfunk Basics |
1.1 | Mobilfunk: Die Anfänge |
1.2 | Zellulare Mobilfunknetze |
1.2.1 | Zelle, Zellgröße, Kapazität & Reichweite |
1.2.2 | Handover & Roaming |
1.2.3 | UE Status & Aufenthaltsort |
1.3 | Koordination der Funkschnittstelle |
1.3.1 | Duplexübertragung |
1.3.2 | Multiplexverfahren |
1.4 | Zellularer Mobilfunk: von 1G bis 6G |
1.5 | 3GPP Standardisierung & Evolution |
2 | 5G Standardisierung & Use Cases |
2.1 | Anforderungen an 5G/IMT-2020 |
2.2 | 5G Anwendungen/Use Cases |
2.3 | 5G Betreiber/Lizenzen |
2.4 | 5G Standardisierung |
2.5 | 5G Zeitplan & Evolution |
2.6 | Flexibilität als 5G Markenkern |
3 | Das 5G Netzwerk |
3.1 | Überblick: Das 5G System 5GS |
3.2 | Das 5G User Equipment |
3.2.1 | 5G USIM |
3.2.2 | 5G UE Power Class |
3.2.3 | 5G UE Power Control |
3.3 | 5G Radio Access Network NG RAN |
3.3.1 | Funktionale Aufsplittung des gNB |
3.3.2 | Distributed RAN vs. Centralized RAN |
3.3.3 | Open-RAN (O-RAN) |
3.3.4 | 5G Basisstations-Klassen/Sendeleistung |
3.3.5 | 5G Non-Standalone vs. 5G Standalone |
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 | UDR & UDSF |
3.5 | Charging im 5GS: Die CHF |
3.6 | 5G Interfaces/Service Based Architecture |
3.7 | Network Slicing |
3.8 | Mobile Edge Computing |
3.9 | IP Multimedia Subsystem IMS / Voice over NR |
4 | 5G Kennungen |
4.1 | Hierarchische Gliederung der Kennungen |
4.2 | Teilnehmer- & Equipment- bezogene Identitäten |
4.3 | Location-basierte Identitäten |
5 | 5G Sicherheit |
5.1 | Überblick 5G Sicherheit |
5.2 | Überprüfung des Endgerätes |
5.3 | Schutz der Teilnehmer-Identität |
5.4 | Authentication |
5.4.1 | Start der Authentication |
5.4.2 | Authentication Vector & Schlüsselverteilung |
5.4.3 | Gegenseitige Authentication |
5.5 | Verschlüsselung & Integritätsprüfung |
5.5.1 | Start Verschlüsselung & Integritätsprüfung |
5.5.2 | Integritätsprüfung |
5.5.3 | Verschlüsselung |
5.5.4 | 5G Sicherheitsalgorithmen |
5.6 | Sicherheit im 5G Netzwerk |
5.7 | SEPP: Security Edge Protection Proxy |
6 | 5G Frequenzen & Lizenzen |
6.1 | Frequenzen & Netzabdeckung |
6.2 | 5G Spektrum & Nutzungsmöglichkeiten |
6.3 | 5G Bänder: Frequenzbereich FR 1 & 2 |
6.4 | 5G Frequenzvergabe in Deutschland |
6.5 | Lokale Lizenzen für 5G Campus Netzwerke |
6.6 | NR-Unlicensed als Option für Private 5G |
7 | 5G Funkschnittstelle: New Radio NR |
7.1 | New Radio Überblick |
7.2 | 5G Duplexübertragung |
7.3 | 5G Multiple Access: OFDMA |
7.3.1 | OFDMA Grundlagen/Nutzung in LTE & 5G |
7.3.2 | Skalierbare Bandbreiten in 5G |
7.3.3 | 5G Bandbreiten für FR1 & FR2 |
7.4 | Sicherung der 5G Funkübertragung |
7.5 | 5G Timing & Latenz-Zeiten |
7.6 | Signalqualität: RSRP, RSRQ & RSSI |
7.7 | Link Adaptation: Modulation & Kodierung |
7.8 | Handover in 5G |
7.9 | Mobilfunk Antennentypen |
7.10 | MIMO: Multi-Antennen-Transmission |
7.10.1 | MIMO in NR |
7.10.2 | Massive MIMO |
7.11 | 5G Datenraten |
7.12 | Carrier Aggregation & Dual-Connectivity |
7.13 | NR Summary |
8 | QoS in 5G Netzwerken |
8.1 | 5G Anwendungen erfordern QoS |
8.2 | PDU Session |
8.3 | QoS Architektur in 5G |
8.4 | QoS Flow & QoS Profil |
8.5 | 5QI: QoS Charakteristiken & Anwendungen |
9 | Private 5G: Betriebsmodelle & Features |
9.1 | 5G für alle Wirtschaftszweige |
9.2 | Private 5G Netzwerke / 5G Campus |
9.2.1 | Private 5G Netze vs. Festnetz & WLAN |
9.2.2 | Private vs. Öffentliche Netzwerke |
9.3 | Private 5G Netze: Betriebsmodelle |
9.3.1 | SNPN: Isoliertes Privates 5G Netzwerk |
9.3.2 | SNPN mit RAN-Sharing |
9.3.3 | Privates 5G Netzwerk, teilweise integriert |
9.3.4 | Virtuelles Privates Netzwerk: Network Slice |
9.4 | Multicast & Broadcast Services MBS |
9.5 | Positionsbestimmung mit 5G |
9.5.1 | Anforderungen & 3GPP Roadmap |
9.5.2 | 5GS Architektur: Funktionen für Positioning |
9.5.3 | UE Positioning Methoden |
9.5.4 | Positioning Summary |
9.6 | Spektrum für Privates 5G |
9.7 | Time Sensitive Networking TSN |
9.7.1 | Time Sensitive Communication in 5G |
9.7.2 | Zeitsynchronisation im 5GS für TSN Support |
10 | WLAN vs. 5G / Konvergenz der Netzwerke |
10.1 | WLAN/WiFi |
10.1.1 | WLAN als IEEE Standard 802.11 |
10.1.2 | WLAN Evolution/Varianten |
10.1.3 | WiFi 6 & WiFi 7 |
10.2 | Technischer Vergleich: WLAN vs. 5G |
10.3 | Einsatz auf dem Campus: WLAN vs. 5G |
10.4 | Konvergente Netze: 5G mit WLAN & Festnetz |
10.5 | Konklusion: P5G mit 5G NR + WLAN + Festnetz |
11 | Industrial IoT |
11.1 | Industrial IoT Überblick |
11.2 | Funk-Technologien für das Internet of Things |
11.3 | 5G für alle Performance Level |
11.4 | LTE-M & NB-IoT |
11.4.1 | Cellular IoT Gerätekategorien |
11.4.2 | CIoT Integration in das 5G System |
11.4.3 | Weitere Cellular IoT Evolution |
11.5 | RedCap UEs |
11.5.1 | RedCap UEs - Rel. 17 |
11.5.2 | RedCap UEs – Release 18 |
11.6 | Ambient IoT |
12 | Zusammenfassung & Ausblick |
12.1 | 5G Zusammenfassung |
12.2 | Die 5G Evolution |
12.3 | Ausblick: Neue Einsatzgebiete & Dienste |
12.4 | Wie geht‘s weiter? |
13 | Optional: Mobilfunk & Gesundheit |
13.1 | Elektromagnetische Wellen |
13.2 | Thermische & nicht-thermische Effekte |
13.3 | Funk Spektrum & Nutzung |
13.4 | Grenzwerte für Mobilfunk |
13.5 | Studien zum Thema Mobilfunk & Gesundheit |
13.6 | Fakes & Fakten |
-
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.
