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The Complete Computer Networks Course: From Zero to Expert!

Name: The Complete Computer Networks Course: From Zero to Expert!
Rating: 4.5 (89 reviews)

Computer Networks for everyone! Master Computer Networks with projects, challenges and theory. Many courses in one!

Created byLucas Bazilio

Last updated 5/2024

English

What you'll learn

Understand How Computer Networks Work
Know how to effectively plan and design a computer IP network
Learn IP Addressing, Subnetting and Routing
Master Network Protocols: Routing Information Protocol (RIP), Transmission Control Protocol (TCP), User Datagram Protocol (UDP), etc.
Get fast and friendly support in the Q&A area
Master Access Control Lists (ACLs)
Flow Control and Congestion Control
Understand the OSI and TCP/IP models
Practice your skills with 20+ challenges and assignments (solutions included)

Course content

12 sections • 119 lectures • 19h 45m total length

Course Overview2:07
OSI Model4:51
On this lesson we make a brief introduction to the OSI Model.

Introduction to IP Networks8:01
On this lesson we introduce Internet Protocol (IP) networks.
IP Address4:41
On this lesson we study the IP address.
Masks in an IP Address8:30
On this lesson we introduce masks in an IP address.
IP Assignment14:37
On this lesson we study the IP assignment.
Example IP Assignment13:59
On this lesson we analyze an example of IP assignment.
Complex Masks11:38
On this lesson we introduce complex masks.
Subnetting33:28
On this lesson we study subnetting in IP networks.
Addressing2:48
On this lesson we study IP addressing.
Routing16:00
On this lesson we introduce routing in IP networks.
IP Routing16:10
On this lesson we continue to study IP Routing.
Terminal - Routing and Environment11:40
On this lesson we work with routing in the terminal.

Address Resolution Protocol (ARP)34:09
On this lesson we study the Address Resolution Protocol (ARP) and analyze some examples.
IP Header8:35
On this lesson we introduce the IP header.
Fragmentation7:54
On this lesson we introduce the fragmentation of datagrams and study the concept of Maximum Transfer Unit (MTU).
Fragmentation Task
Internet Control Message Protocol (ICMP)17:38
On this lesson we study the Internet Control Message Protocol (ICMP).
Dynamic Host Configuration Protocol (DHCP)19:19
On this lesson we introduce the Dynamic Host Configuration Protocol (DHCP).

Problem 1 - Question A22:30
In this lesson we solve question A of problem 1 on the IP Networks problems section.
Problem 1 - Question B26:30
In this lesson we solve question B of problem 1 on the IP Networks problems section.
Problem 1 - Question C10:15
In this lesson we solve question C of problem 1 on the IP Networks problems section.
Problem 1 - Question D4:25
In this lesson we solve question D of problem 1 on the IP Networks problems section.
Problem 1 - Question E15:33
In this lesson we solve question E of problem 1 on the IP Networks problems section.
Problem 1 - Question F25:56
In this lesson we solve question F of problem 1 on the IP Networks problems section.
Problem 1 - Question G6:58
In this lesson we solve question G of problem 1 on the IP Networks problems section.
Problem 2 - Question A12:46
In this lesson we solve question A of problem 2 on the IP Networks problems section.
Problem 2 - Question B8:19
In this lesson we solve question B of problem 2 on the IP Networks problems section.
Problem 2 - Question C2:12
In this lesson we solve question C of problem 2 on the IP Networks problems section.
Problem 2 - Question D24:15
In this lesson we solve question D of problem 2 on the IP Networks problems section.
Problem 2 - Question E14:01
In this lesson we solve question E of problem 2 on the IP Networks problems section.
Problem 2 - Question F9:08
In this lesson we solve question F of problem 2 on the IP Networks problems section.
Problem 2 - Question G10:49
In this lesson we solve question G of problem 2 on the IP Networks problems section.
Problem 2 - Question H10:58
In this lesson we solve question H of problem 2 on the IP Networks problems section.
Problem 3 - Question A37:56
In this lesson we solve question A of problem 3 on the IP Networks problems section.
Problem 3 - Question B13:56
In this lesson we solve question B of problem 3 on the IP Networks problems section.
Problem 3 - Question C6:28
In this lesson we solve question C of problem 3 on the IP Networks problems section.
Problem 3 - Question D4:22
In this lesson we solve question D of problem 3 on the IP Networks problems section.
Problem 4 - Question A29:17
In this lesson we solve question A of problem 4 on the IP Networks problems section.
Problem 4 - Question B24:34
In this lesson we solve question B of problem 4 on the IP Networks problems section.
Problem 4 - Question C10:40
In this lesson we solve question C of problem 4 on the IP Networks problems section.

Introduction to UDP and TCP9:04
On this lecture we make a brief introduction to the transport layer, UDP and TCP.
User Datagram Protocol (UDP)7:07
On this lecture we introduce the User Datagram Protocol (UDP).
UDP Header1:46
On this lecture we study the UDP Header.
Transmission Control Protocol (TCP)3:32
On this lecture we introduce the Transmission Control Protocol (TCP).
TCP Architecture2:30
On this lecture we study the TCP architecture.
Maximum Segment Size (MSS)4:15
On this lecture we study the Maximum Transfer Unit (MSS) in TCP.
Sequence Numbers12:18
On this lecture we study Sequence Numbers in TCP.
Three-Way Handshake15:04
On this lecture we study the Three-Way Handshake process when establishing and terminating a TCP connection.
tcpdump16:20
On this lecture we study the tcpdump tool. It is a very important tool to capture TCP segments.
TCP Transmission and Sliding Window12:50
On this lesson we study the operation of TCP during transmission.
We also introduce the concept of Sliding Window.
Flow Control2:29
On this lecture we introduce the Flow Control in TCP.
Congestion Control3:38
On this lecture we introduce the Congestion Control in TCP.
Slow Start and Congestion Avoidance20:11
On this lecture we study the Slow Start + Congestion Avoidance algorithm in TCP.

Problem 1 - Question A16:17
On this lecture we solve question A of problem 1 on the Transport Protocols problems section.
Problem 1 - Question B8:59
On this lecture we solve question B of problem 1 on the Transport Protocols problems section.
Problem 1 - Question C15:36
On this lecture we solve question C of problem 1 on the Transport Protocols problems section.
Problem 1 - Question D18:08
On this lecture we solve question D of problem 1 on the Transport Protocols problems section.
Problem 1 - Question E6:47
On this lecture we solve question E of problem 1 on the Transport Protocols problems section.
Problem 2 - Question A6:59
On this lecture we solve question A of problem 2 on the Transport Protocols problems section.
Problem 2 - Question B3:28
On this lecture we solve question B of problem 2 on the Transport Protocols problems section.
Problem 2 - Question C5:31
On this lecture we solve question C of problem 2 on the Transport Protocols problems section.
Problem 2 - Question D4:05
On this lecture we solve question D of problem 2 on the Transport Protocols problems section.
Problem 2 - Question E6:20
On this lecture we solve question E of problem 2 on the Transport Protocols problems section.
Problem 2 - Question F3:37
On this lecture we solve question F of problem 2 on the Transport Protocols problems section.
Problem 2 - Question G4:57
On this lecture we solve question G of problem 2 on the Transport Protocols problems section.
Problem 2 - Question H7:38
On this lecture we solve question H of problem 2 on the Transport Protocols problems section.
Problem 2 - Question I5:20
On this lecture we solve question I of problem 2 on the Transport Protocols problems section.

Introduction to LAN1:43
On this lecture we introduce the Local Area Network (LAN).
LAN Architecture2:10
On this lecture we study the LAN Architecture.
Shared Medium Access11:19
On this lecture we study the Shared Medium Access in LANs.
Ethernet8:10
On this lecture we introduce the Ethernet technology.
CSMA/CD Protocol6:09
On this lecture we study the CSMA/CD Protocol.
Ethernet Frame2:08
On this lecture we study the Ethernet Frame.
Switched Ethernet13:07
On this lecture we study the Switched Ethernet and introduce the switch device.
Half Duplex and Full Duplex2:18
On this lecture we review the half duplex and full duplex technologies.
Moreover, we study the concept of collision domain.
Virtual LAN (VLAN)5:00
On this lecture we introduce the VLAN technology.
VLAN Examples11:32
On this lecture we study some VLAN Examples.
WiFi8:47
On this lecture we introduce WiFi and Wireless LANs (WLANs).
WLAN MAC Protocol8:10
On this lecture we study the WLAN MAC Protocol and see the CSMA/CD protocol.
WLAN Frame7:03
On this lecture we study the WLAN Frame.

Requirements

No experience needed - I'll teach you everything you need to know.
Any computer and OS will work — Windows, macOS or Linux.

Description

Welcome to The Complete Computer Networks Course, the ultimate course designed to empower you with the knowledge, skills, and confidence to navigate the intricate world of computer networks. Whether you're an aspiring IT professional, a network enthusiast, or someone seeking to enhance their technical prowess, this course is your passport to unlocking the unlimited possibilities of modern networking.

In today's digital landscape, computer networks are the lifeblood of global communication and connectivity. Understanding the intricacies of network architectures, protocols, and technologies is essential for anyone seeking to thrive in the world of technology. This comprehensive course has been meticulously crafted to provide you with a solid foundation and the practical expertise needed to excel in the dynamic field of computer networks.

Course Highlights:

1. Fundamentals of Computer Networks:

Delve into the history and evolution of computer networks.
Comprehend the core principles and concepts behind networking.
Gain insight into network types, models, and the OSI reference model.

2. Network Infrastructure:

Explore network components such as routers, switches, and hubs.
Understand various network topologies and their applications.
Learn about network media types, including wired and wireless technologies.

3. Network Protocols:

Uncover the inner workings of TCP/IP, the backbone of the modern internet.
Dive into essential protocols such as IP, ICMP, ARP, DHCP, DNS, and more.
Grasp the fundamentals of routing and switching protocols.

4. Network Security:

Discover the importance of network security and common threats.
Explore cryptographic techniques, firewalls, and intrusion detection systems.
Learn strategies to safeguard networks against cyber-attacks.

5. Network Design and Implementation:

Master network design principles and methodologies.
Plan, configure, and deploy robust networks tailored to specific requirements.
Gain hands-on experience with network simulation and configuration tools.

6. Network Management and Troubleshooting:

Develop skills in network monitoring, optimization, and performance analysis.
Learn troubleshooting techniques to identify and resolve network issues.
Familiarize yourself with network management protocols and tools.

Why Choose This Course:

Comprehensive Curriculum: This course offers an all-encompassing curriculum, covering foundational concepts to cutting-edge technologies, ensuring you become a well-rounded networking professional.
Practical Approach: It emphasizes hands-on labs, simulations, and real-world scenarios to reinforce theoretical knowledge and provide practical skills.
Engaging Learning Materials: This course materials include interactive videos, tutorials, quizzes, and case studies to enhance your learning experience.
Supportive Learning Environment: Benefit from dedicated forums, Q&A sessions, and personalized guidance from instructors and a vibrant community of learners.
Career Advancement: By mastering computer networks, you unlock a world of lucrative career opportunities in network engineering, administration, cybersecurity, and beyond.

Don't miss this opportunity to embark on a transformative journey into the realm of computer networks. Enroll in The Complete Computer Networks Course today, and join the ranks of successful professionals shaping the future of technology. Together, let's unlock the full potential of computer networks!

Who this course is for:

Anywone wanting to learn Networking from scratch
Computer Science and Technology Students
Bussiness and IT managers needing advanced knowledge of Computer Networks
Aspiring and Inexperienced IT Professionals

The Complete Computer Networks Course: From Zero to Expert!

What you'll learn

Explore related topics

Course content

Course Introduction2 lectures • 7min

IP Fundamentals11 lectures • 2hr 22min

Protocols5 lectures • 1hr 28min

Network Address Translation (NAT)4 lectures • 31min

Routing Information Protocol (RIP)2 lectures • 31min

Security Notions2 lectures • 16min

IP Networks - Solved Problems22 lectures • 5hr 32min

Transport Protocols13 lectures • 1hr 51min

Solved Problems - Transport Protocols14 lectures • 1hr 54min

Local Area Networks (LANs)13 lectures • 1hr 28min

Requirements

Description

Who this course is for: