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+--- Thread: 6G, 5G, 4G, 3G, 2G Telecom Technologies - Foundation (/Thread-6G-5G-4G-3G-2G-Telecom-Technologies-Foundation--437095)
6G, 5G, 4G, 3G, 2G Telecom Technologies - Foundation - AD-TEAM - 06-11-2024
![[Image: a58742939a3d15e1432845e038bb9b5c.jpg]](https://i123.fastpic.org/big/2024/0611/5c/a58742939a3d15e1432845e038bb9b5c.jpg)
6G, 5G, 4G, 3G, 2G Telecom Technologies - Foundation
Published 12/2023
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.62 GB | Duration: 5h 28m
Telecom Network Overview, Architecture Evolution, Radio Access, Transport & Core Network, Call Flows, Future of Telecom
[b]What you'll learn[/b]
Telecom Network Overview - 2G, 3G, 4G, 5G, 6G
Technology & Architecture Evolution - 2G to 6G
Radio Access Network - 4G , 5G
Radio Access Network Evolution
Transport Network
Core Network - 4G, 5G
Call Flows
Future of Telecom
[b]Requirements[/b]
No prior experience or knowledge on Telecom is required
[b]Description[/b]
Let's dive into the world of telecom networks, starting from square one. No need for tedious jargon about 2G, 3G, 4G, or 5G - we'll keep it simple and fun!Section 1. Telecom Network Overview•Evolution of telecom technologies from 2G to 5G•Standards & Specifications by 3GPP & ITU•Telecom Network Architecture•What is Telecom Mast•Different Types of Masts/Cells•Different Types of Antennas•What is User Equipment•Radio Access Network•Transport Network•Core NetworkAs technology evolves, so does its incredible architecture. Witness the magic of fewer nodes required to do the same job, and the mind-bending capabilities of emerging tech.Section 2. Technology & Architecture Evolution•Telecom Network Architecture•2G-GSM Network Architecture•3G-UMTS Network Architecture•4G-LTE Network Architecture•5G Network Architecture•IP Multimedia Subsystem (IMS)•4G Key Capabilities•5G Key CapabilitiesLet's talk RAN, the key part of telecommunication network. It's no secret that RAN eats up nearly 60-70% of spending on the tech front, so it's high time we learn up on the key terms.Section 3. Radio Access Network - Air Interface•4G & 5G Spectrum•Duplex Schemes•4G & 5G Frame Structure•5G Frame Structure•Modulation and coding•OFDMA•Timing Advance•Power Control•Carrier AggregationAntenna Basics, MIMO & BeamformingAfter understanding the basics of Radio Access Network (RAN), let's nail down different ways to boost efficiency and transition it to commercial-off-the-shelf hardware and cloud architecture to create value.Section 4. Radio Access Network Evolution•Stages of RAN Evolution•Split Architecture - RAN•Virtualization in RAN & How Virtualization works•Cloud RAN & How Cloud RAN works•Deployment scenarios - RAN•Origin of Open RAN•What is Open RAN?•Open RAN StandardsOpen RAN design goals & ChallengesTo ensure seamless communication among users in the network, all nodes are linked back to the core network. But wait, there's more than one way to connect these nodes! So, let's dig into the nitty-gritty.Section 5. Transport Network•Transport Network Architecture•Transport Network Topology•Evolution in Transport Network•CIPRI & eCIPRI•Frequency bands for Transport Network•Options to achieve high capacity (throughput) in 5G•E-band : Capacity Vs Availability•E-band : Latency•Service Level ArchitectureMeet the superhero subnetwork: Core Network! It's the subnetwork that connects with external data networks and other PLMNs, making sure users get access to all the services they need. Get ready to learn about the key nodes and their functions, and how this network is transforming into its virtual form.Section 6. Core Network•4G Core Network Architecture & Nodes•4G MME, SGW, PGW, HSS & PCRF•5G Core Network Architecture & Nodes•5G AMF, SMF, UPF, PCF, UDM, NWDAF, NSSAI & NRFTech's got its own quirky ways of letting users hop onto the network. Let's dive into the call flow for initial access and registration, where radio and core network components exchange a flurry of messages.Section 7. Call flows & Inter-System working•Registration Procedures•4G & 5G - Initial access & Registration•Network Identity - 4G/5G - Cell Identifier & Physical Cell Id•User Identity - IMSI, GUTI, SUPI & SUCI•Inter-working between different TechnologiesTelecom is evolving continuously and new techniques such as Virtualization, Cloud Computing, Software defined networking are helping in achieving more agile and efficient networks.Section 8. Future of Telecom·6G Technology·Virtualization·Types of Virtualization·Network Function Virtualization (NFV) & Orchestration·Software Defined Networking (SDN)·Cloud Computing·Types of Cloud Computing·Telco Cloud
Overview
Section 1: Telecom Network Overview
Lecture 1 Introduction
Lecture 2 Evolution of telecom technologies from 2G to 6G
Lecture 3 Standards & Specifications by 3GPP & ITU
Lecture 4 Telecom Network Architecture
Lecture 5 What is Telecom Mast
Lecture 6 Telecom Mast - Live
Lecture 7 Different Types of Masts/Cells
Lecture 8 Types of Masts & their appearance
Lecture 9 Different Types of Antennas
Lecture 10 Antenna - Example (Live)
Lecture 11 What is User Equipment
Lecture 12 Radio Access Network
Lecture 13 Base Station - Live
Lecture 14 Transport Network
Lecture 15 Core Network
Section 2: Architectural evolution in Telecom
Lecture 16 Introduction
Lecture 17 Telecom Network Architecture
Lecture 18 3G-UMTS Network Architecture
Lecture 19 IP Multimedia Subsystem (IMS)
Lecture 20 Release 6 to Release 8 (From 3G towards 4G)
Lecture 21 4G-LTE Network Architecture
Lecture 22 4G-LTE Evolution - 4.5G
Lecture 23 4G LTE Network Architecture Evolution
Lecture 24 5G Network Architecture
Lecture 25 5G Service Based Architecture
Lecture 26 4G Key Capabilities
Lecture 27 5G - What's in ?
Lecture 28 5G Key Capabilities
Lecture 29 6G Key Capabilities
Section 3: Radio Access Network - Air Interface
Lecture 30 Introduction
Lecture 31 Spectrum - 4G
Lecture 32 Spectrum - 5G
Lecture 33 Duplex Schemes
Lecture 34 Frame Structure - 4G
Lecture 35 Frame Structure for 4G - Duplex based
Lecture 36 Frame Structure - 5G
Lecture 37 Resource Grid - 5G
Lecture 38 Modulation
Lecture 39 OFDMA
Lecture 40 Timing Advance (TA)
Lecture 41 Power Control
Lecture 42 Carrier Aggregation & its impact
Lecture 43 Antenna Basics - Arrays
Lecture 44 MIMO - Multiple Input Multiple Output
Lecture 45 Spatial Multiplexing
Lecture 46 Massive MIMO
Lecture 47 4G Physical Layer
Lecture 48 5G Physical Layer
Section 4: Radio Access Network Evolution
Lecture 49 Introduction
Lecture 50 Stages of RAN Evolution
Lecture 51 Split Architecture - RAN
Lecture 52 Protocol Stack - 4G & 5G
Lecture 53 Split Architecture - Types
Lecture 54 Virtualization in RAN
Lecture 55 How Virtualization works?
Lecture 56 Cloud RAN
Lecture 57 How Cloud RAN works
Lecture 58 Deployment scenarios - RAN
Lecture 59 What is Open RAN
Lecture 60 Open RAN Standards
Lecture 61 Open RAN design goals
Lecture 62 Open RAN design challanges
Section 5: Transport Network
Lecture 63 Introduction
Lecture 64 Transport Network Architecture
Lecture 65 Transport Network Topology
Lecture 66 Transport Network - Live Eample
Lecture 67 Evolution in Transport Network
Lecture 68 CPRI & eCPRI
Lecture 69 Frequency bands for Transport Network - Wireless
Lecture 70 Options to achieve high capacity (throughput) in 5G
Lecture 71 Service Level Architecture
Section 6: Core Network
Lecture 72 Introduction
Lecture 73 4G Core Network Architecture
Lecture 74 4G Core Node - Mobility Management Entity (MME)
Lecture 75 4G Core Node - Serving Gateway (SGW)
Lecture 76 4G Core Node - Packet Data Network Gateway (PGW)
Lecture 77 4G Core Node - Home Subscriber Server (HSS)
Lecture 78 4G Core Node - Policy Charging and Rule Function (PCRF)
Lecture 79 5G Core Network Architecture
Lecture 80 5G Service Based Architecture
Lecture 81 5G Core Node - Access & Mobility Management Function (AMF)
Lecture 82 AMF Implementation
Lecture 83 5G Core Node - Session Management Function (SMF)
Lecture 84 5G Core Node - User Plane Function (UPF)
Lecture 85 5G Core Node - Policy Control Function (PCF)
Lecture 86 5G Core Node - Unified Data Management
Lecture 87 5G Core Node - Network Data Analytics Function (NWDAF)
Lecture 88 5G Core Node - Network Slice Selection Function (NSSF)
Lecture 89 5G Core Node - Network Repository Function (NRF)
Section 7: Call flows & Inter-System working
Lecture 90 Introduction
Lecture 91 Registration Procedures
Lecture 92 4G Call Flow
Lecture 93 5G Call Flow - Radio end
Lecture 94 5G Call Flow - end to end
Lecture 95 Network Identity - 4G
Lecture 96 Network Identity - 5G
Lecture 97 User Identity - IMSI
Lecture 98 User Identity - GUTI
Lecture 99 User Identity - GUTI - 5G
Lecture 100 User Identity - SUPI & SUCI - 5G
Lecture 101 Multi Technology Access
Lecture 102 Inter - System Mobility
Section 8: Future of Telecom
Lecture 103 Inroduction
Lecture 104 What is 6G?
Lecture 105 Virtualization
Lecture 106 Virtualization Concepts - Virtual Machines (VM)
Lecture 107 Virtualization Concepts - Resource Sharing
Lecture 108 Virtualization - Benefits
Lecture 109 Virtualization & Orchestration
Lecture 110 Software Defined Networking (SDN)
Lecture 111 What next ? - Cloud
Lecture 112 Cloud Computing
Lecture 113 Key characteristics of Cloud Computing
Lecture 114 Types of Cloud Computing
Lecture 115 Telco Cloud
Suitable for beginners who are interested to get into telecom domain and learn all telecom technologies,Refresher for those who are already working in telecom domain
![[Image: KZMfy4vm_o.jpg]](https://images2.imgbox.com/88/99/KZMfy4vm_o.jpg)
[b]What you'll learn[/b]
Telecom Network Overview - 2G, 3G, 4G, 5G, 6G
Technology & Architecture Evolution - 2G to 6G
Radio Access Network - 4G , 5G
Radio Access Network Evolution
Transport Network
Core Network - 4G, 5G
Call Flows
Future of Telecom
[b]Requirements[/b]
No prior experience or knowledge on Telecom is required
[b]Description[/b]
Let's dive into the world of telecom networks, starting from square one. No need for tedious jargon about 2G, 3G, 4G, or 5G - we'll keep it simple and fun!Section 1. Telecom Network Overview•Evolution of telecom technologies from 2G to 5G•Standards & Specifications by 3GPP & ITU•Telecom Network Architecture•What is Telecom Mast•Different Types of Masts/Cells•Different Types of Antennas•What is User Equipment•Radio Access Network•Transport Network•Core NetworkAs technology evolves, so does its incredible architecture. Witness the magic of fewer nodes required to do the same job, and the mind-bending capabilities of emerging tech.Section 2. Technology & Architecture Evolution•Telecom Network Architecture•2G-GSM Network Architecture•3G-UMTS Network Architecture•4G-LTE Network Architecture•5G Network Architecture•IP Multimedia Subsystem (IMS)•4G Key Capabilities•5G Key CapabilitiesLet's talk RAN, the key part of telecommunication network. It's no secret that RAN eats up nearly 60-70% of spending on the tech front, so it's high time we learn up on the key terms.Section 3. Radio Access Network - Air Interface•4G & 5G Spectrum•Duplex Schemes•4G & 5G Frame Structure•5G Frame Structure•Modulation and coding•OFDMA•Timing Advance•Power Control•Carrier AggregationAntenna Basics, MIMO & BeamformingAfter understanding the basics of Radio Access Network (RAN), let's nail down different ways to boost efficiency and transition it to commercial-off-the-shelf hardware and cloud architecture to create value.Section 4. Radio Access Network Evolution•Stages of RAN Evolution•Split Architecture - RAN•Virtualization in RAN & How Virtualization works•Cloud RAN & How Cloud RAN works•Deployment scenarios - RAN•Origin of Open RAN•What is Open RAN?•Open RAN StandardsOpen RAN design goals & ChallengesTo ensure seamless communication among users in the network, all nodes are linked back to the core network. But wait, there's more than one way to connect these nodes! So, let's dig into the nitty-gritty.Section 5. Transport Network•Transport Network Architecture•Transport Network Topology•Evolution in Transport Network•CIPRI & eCIPRI•Frequency bands for Transport Network•Options to achieve high capacity (throughput) in 5G•E-band : Capacity Vs Availability•E-band : Latency•Service Level ArchitectureMeet the superhero subnetwork: Core Network! It's the subnetwork that connects with external data networks and other PLMNs, making sure users get access to all the services they need. Get ready to learn about the key nodes and their functions, and how this network is transforming into its virtual form.Section 6. Core Network•4G Core Network Architecture & Nodes•4G MME, SGW, PGW, HSS & PCRF•5G Core Network Architecture & Nodes•5G AMF, SMF, UPF, PCF, UDM, NWDAF, NSSAI & NRFTech's got its own quirky ways of letting users hop onto the network. Let's dive into the call flow for initial access and registration, where radio and core network components exchange a flurry of messages.Section 7. Call flows & Inter-System working•Registration Procedures•4G & 5G - Initial access & Registration•Network Identity - 4G/5G - Cell Identifier & Physical Cell Id•User Identity - IMSI, GUTI, SUPI & SUCI•Inter-working between different TechnologiesTelecom is evolving continuously and new techniques such as Virtualization, Cloud Computing, Software defined networking are helping in achieving more agile and efficient networks.Section 8. Future of Telecom·6G Technology·Virtualization·Types of Virtualization·Network Function Virtualization (NFV) & Orchestration·Software Defined Networking (SDN)·Cloud Computing·Types of Cloud Computing·Telco Cloud
Overview
Section 1: Telecom Network Overview
Lecture 1 Introduction
Lecture 2 Evolution of telecom technologies from 2G to 6G
Lecture 3 Standards & Specifications by 3GPP & ITU
Lecture 4 Telecom Network Architecture
Lecture 5 What is Telecom Mast
Lecture 6 Telecom Mast - Live
Lecture 7 Different Types of Masts/Cells
Lecture 8 Types of Masts & their appearance
Lecture 9 Different Types of Antennas
Lecture 10 Antenna - Example (Live)
Lecture 11 What is User Equipment
Lecture 12 Radio Access Network
Lecture 13 Base Station - Live
Lecture 14 Transport Network
Lecture 15 Core Network
Section 2: Architectural evolution in Telecom
Lecture 16 Introduction
Lecture 17 Telecom Network Architecture
Lecture 18 3G-UMTS Network Architecture
Lecture 19 IP Multimedia Subsystem (IMS)
Lecture 20 Release 6 to Release 8 (From 3G towards 4G)
Lecture 21 4G-LTE Network Architecture
Lecture 22 4G-LTE Evolution - 4.5G
Lecture 23 4G LTE Network Architecture Evolution
Lecture 24 5G Network Architecture
Lecture 25 5G Service Based Architecture
Lecture 26 4G Key Capabilities
Lecture 27 5G - What's in ?
Lecture 28 5G Key Capabilities
Lecture 29 6G Key Capabilities
Section 3: Radio Access Network - Air Interface
Lecture 30 Introduction
Lecture 31 Spectrum - 4G
Lecture 32 Spectrum - 5G
Lecture 33 Duplex Schemes
Lecture 34 Frame Structure - 4G
Lecture 35 Frame Structure for 4G - Duplex based
Lecture 36 Frame Structure - 5G
Lecture 37 Resource Grid - 5G
Lecture 38 Modulation
Lecture 39 OFDMA
Lecture 40 Timing Advance (TA)
Lecture 41 Power Control
Lecture 42 Carrier Aggregation & its impact
Lecture 43 Antenna Basics - Arrays
Lecture 44 MIMO - Multiple Input Multiple Output
Lecture 45 Spatial Multiplexing
Lecture 46 Massive MIMO
Lecture 47 4G Physical Layer
Lecture 48 5G Physical Layer
Section 4: Radio Access Network Evolution
Lecture 49 Introduction
Lecture 50 Stages of RAN Evolution
Lecture 51 Split Architecture - RAN
Lecture 52 Protocol Stack - 4G & 5G
Lecture 53 Split Architecture - Types
Lecture 54 Virtualization in RAN
Lecture 55 How Virtualization works?
Lecture 56 Cloud RAN
Lecture 57 How Cloud RAN works
Lecture 58 Deployment scenarios - RAN
Lecture 59 What is Open RAN
Lecture 60 Open RAN Standards
Lecture 61 Open RAN design goals
Lecture 62 Open RAN design challanges
Section 5: Transport Network
Lecture 63 Introduction
Lecture 64 Transport Network Architecture
Lecture 65 Transport Network Topology
Lecture 66 Transport Network - Live Eample
Lecture 67 Evolution in Transport Network
Lecture 68 CPRI & eCPRI
Lecture 69 Frequency bands for Transport Network - Wireless
Lecture 70 Options to achieve high capacity (throughput) in 5G
Lecture 71 Service Level Architecture
Section 6: Core Network
Lecture 72 Introduction
Lecture 73 4G Core Network Architecture
Lecture 74 4G Core Node - Mobility Management Entity (MME)
Lecture 75 4G Core Node - Serving Gateway (SGW)
Lecture 76 4G Core Node - Packet Data Network Gateway (PGW)
Lecture 77 4G Core Node - Home Subscriber Server (HSS)
Lecture 78 4G Core Node - Policy Charging and Rule Function (PCRF)
Lecture 79 5G Core Network Architecture
Lecture 80 5G Service Based Architecture
Lecture 81 5G Core Node - Access & Mobility Management Function (AMF)
Lecture 82 AMF Implementation
Lecture 83 5G Core Node - Session Management Function (SMF)
Lecture 84 5G Core Node - User Plane Function (UPF)
Lecture 85 5G Core Node - Policy Control Function (PCF)
Lecture 86 5G Core Node - Unified Data Management
Lecture 87 5G Core Node - Network Data Analytics Function (NWDAF)
Lecture 88 5G Core Node - Network Slice Selection Function (NSSF)
Lecture 89 5G Core Node - Network Repository Function (NRF)
Section 7: Call flows & Inter-System working
Lecture 90 Introduction
Lecture 91 Registration Procedures
Lecture 92 4G Call Flow
Lecture 93 5G Call Flow - Radio end
Lecture 94 5G Call Flow - end to end
Lecture 95 Network Identity - 4G
Lecture 96 Network Identity - 5G
Lecture 97 User Identity - IMSI
Lecture 98 User Identity - GUTI
Lecture 99 User Identity - GUTI - 5G
Lecture 100 User Identity - SUPI & SUCI - 5G
Lecture 101 Multi Technology Access
Lecture 102 Inter - System Mobility
Section 8: Future of Telecom
Lecture 103 Inroduction
Lecture 104 What is 6G?
Lecture 105 Virtualization
Lecture 106 Virtualization Concepts - Virtual Machines (VM)
Lecture 107 Virtualization Concepts - Resource Sharing
Lecture 108 Virtualization - Benefits
Lecture 109 Virtualization & Orchestration
Lecture 110 Software Defined Networking (SDN)
Lecture 111 What next ? - Cloud
Lecture 112 Cloud Computing
Lecture 113 Key characteristics of Cloud Computing
Lecture 114 Types of Cloud Computing
Lecture 115 Telco Cloud
Suitable for beginners who are interested to get into telecom domain and learn all telecom technologies,Refresher for those who are already working in telecom domain