Starting a new Lecture Notes Series on Computer Networks
Youtube Lecture Playlist CreditsChannel Name: Neso Academy
So Let Us Start to This Journey of Learning Computer Networks By Lecture Notes
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Lecture 1: Introduction to Computer Networks
Lecture 2: Basic Characteristics
Lecture 3: Network Protocols & Communications (Part 1)
Lecture 4: Network Protocols & Communications (Part 2)
Lecture 5: Components of a Computer Network
Lecture 6: Classification of Computer Networks
Lecture 7: Network Topology
Lecture 8: Network Topology (Solved Questions)
Lecture 9: Basics of IP Addressing
Lecture 10: Basics of MAC Addressing
Lecture 11: Basics of Port Addressing
Lecture 12: Switching Techniques in Computer Networks
Lecture 13: Layering in Computer Networks
Lecture 14: The OSI Reference Model (Part 1)
Lecture 15: The OSI Reference Model (Part 2)
Lecture 16: The OSI Reference Model (Part 3)
Lecture 17: The OSI Reference Model (Part 4)
Lecture 18: Addressing in Networking
Lecture 19: The TCP/IP Protocol Suite
Lecture 20: Basic Networking Commands (Part 1)
Lecture 21: Basics of Cisco Packet Tracer (Part 1)
Lecture 22: Basics of Cisco Packet Tracer (Part 2) | Hub
Lecture 23: Basics of Cisco Packet Tracer (Part 3) | Switch
Lecture 24: Basics of Router
Lecture 25: Basics of Cisco Packet Tracer (Part 4) | Router
Lecture 27: Basics of Bridge
Lecture 28: Network Devices
Lecture 29: Network Devices (Solved Questions)
Lecture 30: Physical Layer and Media (Part 1)
Lecture 31: Physical Layer and Media (Part 2)
Lecture 32: Physical Layer and Media (Part 3)
Lecture 33: Line Configuration
Lecture 34: Link Layer Services
Lecture 35: Sub-layers of the Data Link Layer
Lecture 36: Framing (Part 1)
Lecture 37: Framing (Part 2)
Lecture 38: Framing (Part 3)
Lecture 39: High-Level Data Link Control (HDLC)
Lecture 40: Bit Stuffing
Lecture 42: Point-to-Point Protocol (PPP)
Lecture 44: Error Detection
Lecture 45: Vertical Redundancy Check (VRC)
Lecture 46: Longitudinal Redundancy Check (LRC)
Lecture 47: Checksum
Lecture 48: Cyclic Redundancy Check (CRC) - Part 1
Lecture 49: Cyclic Redundancy Check (CRC) - Part 2
Lecture 50: Cyclic Redundancy Check (Solved Problem)
Lecture 51: Network Performance
Lecture 52: Latency
Lecture 53: Latency (Simulation)
Lecture 54: Bandwidth Delay Product
Lecture 55: Delay (Solved Problem)
Lecture 56: Round Trip Time (RTT)
Lecture 57: Flow Control
Lecture 58: Stop-and-Wait Protocol
Lecture 59: Stop-and-Wait ARQ Protocol
Lecture 60: Sliding Window Protocol
Lecture 61: Go-Back-N ARQ
Lecture 62: Go-Back-N ARQ (Solved Problem 1)
Lecture 63: Go-Back-N ARQ (Solved Problem 2)
Lecture 64: Selective Repeat ARQ
Lecture 65: Selective Repeat ARQ (Solved Problem 1)
Lecture 66: Selective Repeat ARQ (Solved Problem 2)
Lecture 67: Sliding Window Protocol (Solved Problem 1)
Lecture 68: Sliding Window Protocol (Solved Problem 2)
Lecture 69: Multiple Access Protocols
Lecture 70: Pure Aloha
Lecture 71: Slotted Aloha
Lecture 72: Carrier Sense Multiple Access (CSMA) – Part 1
Lecture 73: Carrier Sense Multiple Access (CSMA) – Part 2
Lecture 74: Controlled Access Protocol – Reservation
Lecture 75: Controlled Access Protocol – Polling
Lecture 76: Controlled Access Protocol – Token Passing
Lecture 77: Channelization Protocols
Lecture 78: Ethernet
Lecture 79: Ethernet (Solved Questions) - Part 1
Lecture 80: Ethernet (Solved Questions) - Part 2
Lecture 81: Ethernet Transmitter Algorithm
Lecture 82: Experience with Ethernet
Lecture 83: Ethernet (Solved Question 1)
Lecture 84: Ethernet (Solved Question 2)
Lecture 85: Ethernet (Solved Question 3)
Lecture 86: IEEE 802.11 Wireless Fidelity (Wi-Fi)
Lecture 87: IEEE 802.11 Distribution System
Lecture 88: IEEE 802.11 Wi-Fi Frame Format
Lecture 89: Hidden Terminal Problem
Lecture 90: Exposed Terminal Problem
Lecture 91: Multiple Access with Collision Avoidance (MACA)
Lecture 92: Wi-Fi (Solved Question)