Private 5G Networks 5G Non-Public Networks (NPNs)

Private 5G Networks / 5G Non-Public Networks (NPNs), available at $39.99, has an average rating of 3.73, with 49 lectures, based on 171 reviews, and has 652 subscribers.

You will learn about Private (Non-Public) 5G Networks & its examples Key Enables for Private 5G Networks Frequency Spectrum for Private 5G Networks Standalone Non-Public Network (SNPN) Public Network Integrated Non-Public Networks (PNI-NPNs) Shared RAN PNI-NPN Shared RAN and Control Plane PNI-NPN Hosted by the Public Network PNI-NPN Industry 4.0 & Time Sensitive Networking 5G System (5GS) Interworking with TSN Synchronization in TSN and 5G Networks 5G & TSN Interworking Procedures 5G Non-Public Networks (NPN) This course is ideal for individuals who are Anyone wanting to learn Private 5G Networks or Telecom professional, 5G Enthusiast It is particularly useful for Anyone wanting to learn Private 5G Networks or Telecom professional, 5G Enthusiast.

Enroll now: Private 5G Networks / 5G Non-Public Networks (NPNs)

Summary

Title: Private 5G Networks / 5G Non-Public Networks (NPNs)

Price: $39.99

Average Rating: 3.73

Number of Lectures: 49

Number of Published Lectures: 49

Number of Curriculum Items: 49

Number of Published Curriculum Objects: 49

Original Price: $19.99

Quality Status: approved

Status: Live

What You Will Learn

Private (Non-Public) 5G Networks & its examples

Key Enables for Private 5G Networks

Frequency Spectrum for Private 5G Networks

Standalone Non-Public Network (SNPN)

Public Network Integrated Non-Public Networks (PNI-NPNs)

Shared RAN PNI-NPN

Shared RAN and Control Plane PNI-NPN

Hosted by the Public Network PNI-NPN

Industry 4.0 & Time Sensitive Networking

5G System (5GS) Interworking with TSN

Synchronization in TSN and 5G Networks

5G & TSN Interworking Procedures

5G Non-Public Networks (NPN)

Who Should Attend

Anyone wanting to learn Private 5G Networks

Telecom professional, 5G Enthusiast

Target Audiences

Anyone wanting to learn Private 5G Networks

Telecom professional, 5G Enthusiast

Recent years have seen a lot of increase in the adoption of private 5G networks, regulators are allocating more and more spectrum to the enterprises so that they can build their own private 5G networks. The fact that these networks they do not share traffic with public networks is a game changer for enterprises, as they can leverage the reliability, high-speed connectivity, low latency, security and power efficiency of 5G. This opens up new IoT possibilities and generates new revenue streams. A private 5G network can be thought of as a wireless local area network (LAN) that uses 5G-enabled technologies to create a network with dedicated bandwidth and infrastructure that meets a company’s specific connectivity needs.

Private 5G networks can also be integrated with Time Sensitive Networking (TSN) for use in industry 4.0. So, future factories will be without cables and wires but can fulfill all requirements of time sensitive applications used in automation and control.   

Course Contents:

Section 1:Introduction to Private 5G Networks
   What is a Private 5G Network?
   Why Private 5G Networks in a Factory?
   Why Private 5G Networks in Airports & Container Hubs etc?
   Why Private 5G Networks in Airports & Container Hubs etc?
   Key Requirements for Private 5G Networks

Section 2:Key Enablers for the Private 5G Networks
   Ultra Low Latency Features
   High Reliability Features
   QoS Customization in PDU Session
   5G Network Slicing
   Mobile Edge Computing (MEC)
   Massive MMO & Beamforming

Section 3:Frequency Spectrum for Private 5G Networks
   5G Frequency Bands
   Spectrum Types for Private 5G Networks
   Licensed Spectrum
   Shared Spectrum
   Channel Usage Co-ordination in Shared Spectrum
   Unlicensed Spectrum
   Unlicensed Spectrum Sharing Techniques

Section 4:Deployment Models For Private 5G/Non-Public Networks (NPNs)
   Introduction to Non-Public Networks (NPNs) Deployment Models
   Standalone Non-Public Network (SNPN)
   How a SNPN Registered UE can use Services of a Public Network
   Public Network Integrated Non-Public Networks (PNI-NPNs) and its Types
       1. Shared RAN PNI-NPN
       2. Shared RAN and Control Plane PNI-NPN
       3. Hosted by the Public Network PNI-NPN
    Closed Access Group (CAG) in PNI-NPNs

Section 5:Industry 4.0 & Time Sensitive Networking
     Introduction to Industry 4.0 & Time Sensitive Networking
     Time Sensitive Networking (TSN) for Deterministic Communication
     TSN Architecture and its Components
     Importance of Time Synchronization in TSN Networks
     Time Aware Scheduling in TSN Networks
     TSN Sample Workflow

Section 6:5G System (5GS) Interworking with TSN
     Introduction to 5G System (5GS) Interworking with TSN
     TSN-Application Function (AF)
     Network Exposure Function (NEF)
     Session Management Function (SMF)
     Policy and Charging Function (PCF)
     Access & Mobility Management Function (AMF)
     Device Side TSN Translator (DS-TT) & Network Side TSN Translator (NW-TT)
     Characteristics of 5G System as TSN Bridge

Section 7:Synchronization in TSN and 5G Networks
      Introduction to Synchronization in TSN and 5G Networks
      Clock Flow in 5G Domain
      Clock Flow Between Two TSN Domains
      Calculation of Residence Time in 5G Bridge

Section 8:5G & TSN Interworking Procedures
      5G & TSN Interworking Procedure Types
          1. 5G TSN Bridge Detection
          2. 5G TSN Bridge Informaion Reporting
          3. TSN Traffic Scheduling on a 5G TSN Bridge
      Time Sensitive Communication Time Synchronisation Function (TSCTSF)

Course Curriculum

Chapter 1: Introduction

Lecture 1: What is a Private 5G Network?

Lecture 2: Why Private 5G Networks in a Factory?

Lecture 3: Why Private 5G Networks in Airports & Container Hubs etc?

Lecture 4: Why Private 5G Networks in Remote Sites & Buildings?

Lecture 5: Key Requirements for Private 5G Networks

Chapter 2: Key Enablers for the Private 5G Networks

Lecture 1: Ultra Low Latency Features

Lecture 2: High Reliability Features

Lecture 3: QoS Customization in PDU Session

Lecture 4: 5G Network Slicing

Lecture 5: Mobile Edge Computing (MEC)

Lecture 6: Massive MMO & Beamforming

Chapter 3: Frequency Spectrum for Private 5G Networks

Lecture 1: 5G Frequency Bands

Lecture 2: Spectrum Types for Private 5G Networks

Lecture 3: 1. Licensed Spectrum

Lecture 4: 2. Shared Spectrum

Lecture 5: Channel Usage Co-ordination in Shared Spectrum

Lecture 6: 3. Unlicensed Spectrum

Lecture 7: Unlicensed Spectrum Sharing Techniques

Chapter 4: Deployment Models For Private 5G/Non-Public Networks (NPNs)

Lecture 1: Introduction to Non-Public Networks (NPNs) Deployment Models

Lecture 2: Standalone Non-Public Network (SNPN)

Lecture 3: How a SNPN Registered UE can use Services of a Public Network

Lecture 4: Public Network Integrated Non-Public Networks (PNI-NPNs) and its Types

Lecture 5: 1. Shared RAN PNI-NPN

Lecture 6: 2. Shared RAN and Control Plane PNI-NPN

Lecture 7: 3. Hosted by the Public Network PNI-NPN

Lecture 8: Closed Access Group (CAG) in PNI-NPNs

Chapter 5: Time Sensitive Networking for Industry 4.0

Lecture 1: Introduction to Industry 4.0 & Time Sensitive Networking

Lecture 2: Time Sensitive Networking (TSN) for Deterministic Communication

Lecture 3: TSN Architecture and its Components

Lecture 4: Importance of Time Synchronization in TSN Networks

Lecture 5: Time Aware Scheduling in TSN Networks

Lecture 6: TSN Sample Workflow

Chapter 6: Architecture for Interworking between 5G & TSN

Lecture 1: Introduction to 5G System (5GS) Interworking with TSN

Lecture 2: TSN-Application Function (AF)

Lecture 3: Network Exposure Function (NEF)

Lecture 4: Session Management Function (SMF)

Lecture 5: Policy and Charging Function (PCF)

Lecture 6: Access & Mobility Management Function (AMF)

Lecture 7: Device Side TSN Translator (DS-TT) & Network Side TSN Translator (NW-TT)

Lecture 8: Characteristics of 5G System as TSN Bridge

Chapter 7: Synchronization in TSN and 5G Networks

Lecture 1: Introduction to Synchronization in TSN and 5G Networks

Lecture 2: Clock Synchronization Flow in 5G Domain

Lecture 3: Clock Flow Between Two TSN Domains

Lecture 4: Calculation of Residence Time in 5G Bridge

Chapter 8: 5G & TSN Interworking Procedures

Lecture 1: 5G & TSN Interworking Procedure Types

Lecture 2: 1. 5G TSN Bridge Detection

Lecture 3: 2. 5G TSN Bridge Information Reporting

Lecture 4: 3. TSN Traffic Scheduling on a 5G TSN Bridge

Lecture 5: Time Sensitive Communication Time Synchronisation Function (TSCTSF)

Instructors

Dr. Moazzam Tiwana
Assistant Professor/Telecom Engineer

Rating Distribution

1 stars: 2 votes

2 stars: 8 votes

3 stars: 29 votes

4 stars: 59 votes

5 stars: 73 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!