The Complete Computer Networks Course- From Zero to Expert!

The Complete Computer Networks Course: From Zero to Expert!, available at $69.99, has an average rating of 4.1, with 120 lectures, based on 32 reviews, and has 1021 subscribers.

You will learn about 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) This course is ideal for individuals who are Anywone wanting to learn Networking from scratch or Computer Science and Technology Students or Bussiness and IT managers needing advanced knowledge of Computer Networks or Aspiring and Inexperienced IT Professionals It is particularly useful for Anywone wanting to learn Networking from scratch or Computer Science and Technology Students or Bussiness and IT managers needing advanced knowledge of Computer Networks or Aspiring and Inexperienced IT Professionals.

Enroll now: The Complete Computer Networks Course: From Zero to Expert!

Summary

Title: The Complete Computer Networks Course: From Zero to Expert!

Price: $69.99

Average Rating: 4.1

Number of Lectures: 120

Number of Published Lectures: 119

Number of Curriculum Items: 121

Number of Published Curriculum Objects: 120

Original Price: $199.99

Quality Status: approved

Status: Live

What You Will 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)

Who Should Attend

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

Target Audiences

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

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:

1. Comprehensive Curriculum: This course offers an all-encompassing curriculum, covering foundational concepts to cutting-edge technologies, ensuring you become a well-rounded networking professional.

2. Practical Approach: It emphasizes hands-on labs, simulations, and real-world scenarios to reinforce theoretical knowledge and provide practical skills.

3. Engaging Learning Materials: This course materials include interactive videos, tutorials, quizzes, and case studies to enhance your learning experience.

4. Supportive Learning Environment: Benefit from dedicated forums, Q&A sessions, and personalized guidance from instructors and a vibrant community of learners.

5. 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!

Course Curriculum

Chapter 1: Course Introduction

Lecture 1: Course Overview

Lecture 2: OSI Model

Chapter 2: IP Fundamentals

Lecture 1: Introduction to IP Networks

Lecture 2: IP Address

Lecture 3: Masks in an IP Address

Lecture 4: IP Assignment

Lecture 5: Example IP Assignment

Lecture 6: Complex Masks

Lecture 7: Subnetting

Lecture 8: Addressing

Lecture 9: Routing

Lecture 10: IP Routing

Lecture 11: Terminal – Routing and Environment

Chapter 3: Protocols

Lecture 1: Address Resolution Protocol (ARP)

Lecture 2: IP Header

Lecture 3: Fragmentation

Lecture 4: Internet Control Message Protocol (ICMP)

Lecture 5: Dynamic Host Configuration Protocol (DHCP)

Chapter 4: Network Address Translation (NAT)

Lecture 1: Introduction to NAT

Lecture 2: Static NAT (SNAT)

Lecture 3: Dynamic NAT

Lecture 4: Port Address Translation (PAT)

Chapter 5: Routing Information Protocol (RIP)

Lecture 1: Introduction to RIP

Lecture 2: Management of RIP

Chapter 6: Security Notions

Lecture 1: Introduction to Security Notions

Lecture 2: Firewall and Access Control List (ACL)

Chapter 7: IP Networks – Solved Problems

Lecture 1: Problem 1 – Question A

Lecture 2: Problem 1 – Question B

Lecture 3: Problem 1 – Question C

Lecture 4: Problem 1 – Question D

Lecture 5: Problem 1 – Question E

Lecture 6: Problem 1 – Question F

Lecture 7: Problem 1 – Question G

Lecture 8: Problem 2 – Question A

Lecture 9: Problem 2 – Question B

Lecture 10: Problem 2 – Question C

Lecture 11: Problem 2 – Question D

Lecture 12: Problem 2 – Question E

Lecture 13: Problem 2 – Question F

Lecture 14: Problem 2 – Question G

Lecture 15: Problem 2 – Question H

Lecture 16: Problem 3 – Question A

Lecture 17: Problem 3 – Question B

Lecture 18: Problem 3 – Question C

Lecture 19: Problem 3 – Question D

Lecture 20: Problem 4 – Question A

Lecture 21: Problem 4 – Question B

Lecture 22: Problem 4 – Question C

Chapter 8: Transport Protocols

Lecture 1: Introduction to UDP and TCP

Lecture 2: User Datagram Protocol (UDP)

Lecture 3: UDP Header

Lecture 4: Transmission Control Protocol (TCP)

Lecture 5: TCP Architecture

Lecture 6: Maximum Segment Size (MSS)

Lecture 7: Sequence Numbers

Lecture 8: Three-Way Handshake

Lecture 9: tcpdump

Lecture 10: TCP Transmission and Sliding Window

Lecture 11: Flow Control

Lecture 12: Congestion Control

Lecture 13: Slow Start and Congestion Avoidance

Chapter 9: Solved Problems – Transport Protocols

Lecture 1: Problem 1 – Question A

Lecture 2: Problem 1 – Question B

Lecture 3: Problem 1 – Question C

Lecture 4: Problem 1 – Question D

Lecture 5: Problem 1 – Question E

Lecture 6: Problem 2 – Question A

Lecture 7: Problem 2 – Question B

Lecture 8: Problem 2 – Question C

Lecture 9: Problem 2 – Question D

Lecture 10: Problem 2 – Question E

Lecture 11: Problem 2 – Question F

Lecture 12: Problem 2 – Question G

Lecture 13: Problem 2 – Question H

Lecture 14: Problem 2 – Question I

Chapter 10: Local Area Networks (LANs)

Lecture 1: Introduction to LAN

Lecture 2: LAN Architecture

Lecture 3: Shared Medium Access

Lecture 4: Ethernet

Lecture 5: CSMA/CD Protocol

Lecture 6: Ethernet Frame

Lecture 7: Switched Ethernet

Lecture 8: Half Duplex and Full Duplex

Lecture 9: Virtual LAN (VLAN)

Lecture 10: VLAN Examples

Lecture 11: WiFi

Lecture 12: WLAN MAC Protocol

Lecture 13: WLAN Frame

Chapter 11: Solved Problems – Local Area Networks (LANs)

Instructors

Lucas Bazilio
Engineer and Mathematician

Rating Distribution

1 stars: 0 votes

2 stars: 0 votes

3 stars: 6 votes

4 stars: 14 votes

5 stars: 12 votes

Frequently Asked Questions

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