Computer Network Fundamentals Masterclass
Published 4/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 60.76 GB | Duration: 20h 18m
Published 4/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 60.76 GB | Duration: 20h 18m
Dive Deep: Exploring the Core Concepts of Computer Network, from Physical Layer to Application Layer
What you'll learn
Fundamentals of Computer Network
OSI Model
Data Link Layer
Error Detection and Correction
LAN Protocols
Network Devices
Network Layer
Transport Layer
Application Layer
Data Link Layer Protocols
Network Layer Protocols
Application Layer Protocols
Students will be able to understand basic computer networks effectively
Will enable the students to understand complex Computer Networks
Requirements
Anyone can start learning from the beginning of Computer Networks.
You will get all the basics of Computer Network Step by Step. No Networking Knowledge needed!
Description
Computer networks play a vital role in connecting devices and facilitating communication and information sharing among them. This subject provides a comprehensive understanding of the fundamental concepts, protocols, and technologies that form the foundation of modern computer networks.This Computer Network course is specially designed for engineering students who want to understand how exactly computer Network works and is also helpful for working professionals. This is a unique course in the online marketplace.This course is beneficial to the students of various branches such as Computer Science, Computer Engineering, Electronics, and Communication Engineering, IT Engineering as well as students from Science and Diploma stream.This course serves as a valuable resource for both university students and working professionals alike, offering comprehensive insights into the fundamentals of computer networks.This course covers the following topics.- Fundamentals of Computer Networks- Concept of Layering: OSI and TCP/IP Protocol Stacks- Data Link Layer: Stop and Wait, Error Detection, Medium Access Control, CSMA-CD, CSMA-CA and many others- LAN Protocols: Framing, Ethernet LAN, Wireless LAN, Token Ring LAN etc.- Network Devices: Repeater, Hub, Bridge, Switch, Router etc.- Network Layer: Subnetting, CIDR, IP Addressing, Supernetting, IPV4, IPV6, NAT, ICMP, Routing and many more- Transport Layer: Port Number, Flow Control and Congestion Control, UDP, TCP, Sockets and more- Application Layer Protocols: DNS, SMTP, HTTP, FTP, EmailBy the end of the course, students should have a solid understanding of computer network concepts and be equipped with the knowledge and skills to design, implement, and manage small to medium-sized networks, and be familiar with the challenges and considerations involved in larger network environments.Wish you all the BestThank you…
Overview
Section 1: Course Introduction
Lecture 1 Introduction
Section 2: Computer Network Fundamentals
Lecture 2 Introduction to Computer Network
Lecture 3 Computer Network Basics
Lecture 4 Types of Data Communication
Lecture 5 Types of Casting
Lecture 6 Peer to Peer and Client Server Network
Lecture 7 Types of Computer Network
Lecture 8 Topologies of Computer Network
Lecture 9 Hybrid Topology
Section 3: OSI Model
Lecture 10 Basics of OSI Model
Lecture 11 OSI Model
Lecture 12 OSI Model vs TCPIP Model
Lecture 13 TCP Vs UDP
Lecture 14 Transmission Medium
Lecture 15 IP, MAC & Port Address
Section 4: Data Link Layer
Lecture 16 Data Link Layer
Lecture 17 Transmission Delay & Propagation Delay
Lecture 18 Stop & Wait ARQ with Error Free Case
Lecture 19 Stop & Wait ARQ with Special Cases
Lecture 20 Examples on Stop & Wait ARQ
Lecture 21 Capacity of Channel
Lecture 22 Sliding Window Protocol
Lecture 23 Parameters of Sliding Window Protocol
Lecture 24 Go Back N ARQ Protocol
Lecture 25 Examples on Go Back N ARQ Protocol
Lecture 26 Selective Repeat ARQ Protocol
Lecture 27 Comparison of S&W, GBN and SR Protocol
Lecture 28 Examples on Stop and Wait Protocol
Lecture 29 Examples on Go Back N Protocol
Lecture 30 Examples on Selective Repeat ARQ Protocol
Lecture 31 Media Access Protocol
Lecture 32 Channelization Protocol ; FDMA, TDMA, CDMA
Lecture 33 Polling Protocol
Lecture 34 Reservation Protocol
Lecture 35 Token Passing Protocol
Lecture 36 Parameters of Token Passing Protocol
Lecture 37 Pure Aloha
Lecture 38 Slotted Aloha
Lecture 39 Efficiency and Throughput of Aloha
Lecture 40 Examples on Aloha
Lecture 41 CSMA
Lecture 42 CSMA-CD
Lecture 43 Efficiency of CSMA-CD
Lecture 44 Back off Algorithm for CSMA-CD
Lecture 45 Examples on CSMA-CD
Lecture 46 CSMA-CA
Section 5: Error Detection and Correction
Lecture 47 Parity Check
Lecture 48 Checksum
Lecture 49 CRC
Lecture 50 Example on CRC
Lecture 51 Hamming Code
Lecture 52 Hamming Distance
Section 6: LAN Protocols
Lecture 53 Framing
Lecture 54 Ethernet LAN Protocol
Lecture 55 Wireless LAN Protocol
Lecture 56 Token Ring LAN Protocol
Lecture 57 Examples on LAN Protocols
Lecture 58 Examples on LAN Protocols
Lecture 59 Examples on LAN Protocols
Lecture 60 Examples on CSMA Protocols
Lecture 61 Examples on Flow Control Protocols
Section 7: Network Devices
Lecture 62 Repeater
Lecture 63 HUB
Lecture 64 Bridge
Lecture 65 Switch
Lecture 66 Router & Brouter
Lecture 67 Comparison of Network Devices
Lecture 68 Network Segment, Collison Domain & Broadcast Do
Lecture 69 Spanning Tree Protocol
Lecture 70 Example of Spanning Tree Protocol
Section 8: Network Layer
Lecture 71 Network Layer
Lecture 72 Why to do logical Addressing
Lecture 73 Classful Addressing IP Address
Lecture 74 Subnetting
Lecture 75 Subnetting with different sized networks
Lecture 76 CIDR
Lecture 77 Examples on IP Addressing
Lecture 78 Examples on IP Addressing
Lecture 79 Examples of IP Addressing
Lecture 80 Examples of IP Addressing
Lecture 81 Supernetting
Lecture 82 IPV4 frame format
Lecture 83 Fragmentation
Lecture 84 Examples of IPV4 and Fragmentation
Lecture 85 IPV4 Broadcasting
Lecture 86 Localhost and loopback
Lecture 87 ARP
Lecture 88 RARP
Lecture 89 BOOTP
Lecture 90 DHCP
Lecture 91 Public IP and Private IP
Lecture 92 NAT
Lecture 93 ICMP
Lecture 94 ICMP Applications
Lecture 95 Routing
Lecture 96 Non Adaptive Routing
Lecture 97 Distance Vector Algorithm
Lecture 98 Link State Algorithm
Lecture 99 Switching in Computer Networks
Lecture 100 IPV6 basics
Lecture 101 IPV6 casting
Lecture 102 IPV6 Frame format
Lecture 103 Examples on Network Layer
Lecture 104 Examples on Network Layer
Lecture 105 Examples on Network Layer
Lecture 106 Examples on Network Layer
Lecture 107 IPV4 vs IPV6
Section 9: Transport Layer
Lecture 108 Transport Layer
Lecture 109 Port Number
Lecture 110 Sequence Number and Acknowledgement Number
Lecture 111 Wrap Around Time and Lifetime
Lecture 112 Header Length and Checksum
Lecture 113 TCP Connections
Lecture 114 PSH, URG, RST and options
Lecture 115 Flow Control in TCP
Lecture 116 Sliding Window Protocol in TCP
Lecture 117 Retransmission in TCP
Lecture 118 Congestion Control in TCP
Lecture 119 Basic Algorithm for Timeout Timer in TCP
Lecture 120 Timers in TCP
Lecture 121 Jacobson Algorithm for Timeout Timer
Lecture 122 Karn's Modification for Timeout Timer
Lecture 123 Silly Window Syndrome in TCP
Lecture 124 Leaky Bucket and Token Bucket Algorithm
Lecture 125 UDP basics
Lecture 126 UDP Segment Header
Lecture 127 Examples of TCP and UDP
Lecture 128 Examples of TCP and UDP
Lecture 129 Examples of TCP and UDP
Lecture 130 Examples of TCP and UDP
Section 10: Application Layer
Lecture 131 Application Layer Protocols
Lecture 132 DNS
Lecture 133 SMTP POP & IMAP
Lecture 134 HTTP
Lecture 135 FTP SFTP & TFTP
Lecture 136 Examples on Application Layer Protocols
Lecture 137 HTTP Vs HTTPs
Computer Science Students,IT Professionals,Students Preparing for Interview in Computer Networking Domain,Beginners in IT and networking field,Professionals Transitioning into IT Careers,Anyone Interested in Technology