Learn Networking Essentials,
From 77.28 C$ /h
This course provides an overview of the concepts and fundamentals of computer networks.
Topics include an overview of network architectures and topologies, IP addressing and subnetting, congestion mechanism CSMA/CD, troubleshooting commands and methods, switching and routing devices and their related decisions, TCP/IP layers and their protocols (FTP, HTTP, SMTP, DNS, DHCP, UDP, TCP, IP, ICMP etc...), security measures and how to secure your network using Access Lists and Firewall.
The Networking course is a course where you actively learn by doing. You will learn network concepts and protocols by configuring a network, observing the actual behavior of its components and analyzing the results.
Topics include: Basic computer network components, network cabling and cable types, IP addressing and TCP/IP configuration, Peer to Peer and switch-based network, email, HTTP, DHCP and DNS servers, Intrusion attack and firewall configuration.
Topics include an overview of network architectures and topologies, IP addressing and subnetting, congestion mechanism CSMA/CD, troubleshooting commands and methods, switching and routing devices and their related decisions, TCP/IP layers and their protocols (FTP, HTTP, SMTP, DNS, DHCP, UDP, TCP, IP, ICMP etc...), security measures and how to secure your network using Access Lists and Firewall.
The Networking course is a course where you actively learn by doing. You will learn network concepts and protocols by configuring a network, observing the actual behavior of its components and analyzing the results.
Topics include: Basic computer network components, network cabling and cable types, IP addressing and TCP/IP configuration, Peer to Peer and switch-based network, email, HTTP, DHCP and DNS servers, Intrusion attack and firewall configuration.
Extra information
Lecture # 1- Introduction
- Basic Components of Networks
- Network Topologies
- MAC Addresses
- IP Addresses
- NIC
- What is a Server?
Lecture # 2- Basic Components of Networks
- Lab tools
- Cable Types:
- Coaxial Cables.
- Twisted-pair cables.
- Fiber optics Cables.
Lab # 1- Cabling Lab
- Lab # 1.1- Straight-Through Cable Construction.
- Lab # 1.2- Crossover Cable Construction.
- Lab # 1.3- Cable Testing. Lab manual
Lecture # 3- Number conversion:
- Binary to Decimal Conversion
- Decimal To Binary Conversion
- IPV4 Addressing:
- IP Classes
- Default Subnet Mask
- Network and host addresses. Chapter 2: IP addressing
Lecture # 4- How to calculate a Net ID?
- Unicasting, Broadcasting and Multicasting.
- Class C example. Chapter 2: IP addressing
Lab # 2- RJ-45 Jack Punch Down (Wiring Closet & Network wall-mount).
Lecture # 5- Class B example.
- Class A example.
- Homework # 1- IP Addressing Basics.
Lecture # 6- Private IP addresses
- DHCP Client.
Lab # 3- Building a Network:
- Lab # 3.1 – Peer to peer network.
- Lab # 3.2 – Building a Switch-based Network.
- Lab # 3.3 – DHCP lab.
Lecture # 7- APIPA Addressing
- Homework # 2- TCP/IP Configurations.
- DNS service. Chapter 2: IP addressing
Lab # 4 - DNS Lab.
Lecture # 8- OSI model
- OSI 7 layers
- Encapsulation Process
- Layer 1 Network devices
- Repeaters
- Hubs
Lecture # 9- Collisions and Collision domains
- CSMA/CD
- Half- duplex & Full-duplex Ethernet
- Repeaters vs Hubs
Lab # 5- Gateway Lab.
Lecture #10 - Layer 2 Network devices
- Bridges
- Switches
- Broadcast Storm
- Bridges vs Switches
- Hubs vs Switches
Lecture # 11 - Layer 3 Network devices – Routers.
- Collision and Broadcast domains.
- Switches vs Routers.
- Forwarding and Routing tables in the Router.
- Data Flow.
- Routing to another LAN.
Lecture # 12- Static Routes.
- Dynamic Routing Protocols (RIP & OSPF).
- Administrative Distances.
Lab # 6- Routing labs:
- Lab # 6.1 - Building a Routable-based Network using Static Route.
- Lab # 6.2 - Building a Routable-based Network using RIP.
Lecture # 13 - Troubleshooting methods.
Lab # 7 – Troubleshooting Lab.
Lecture # 13 - Technical Interview
Lecture # 14 - Introduction to subnetting
- Subnetting Class C networks
- Class C Subnetting Example
Lab # 8- Class C Subnetting Lab
Lecture # 15 - Subnetting Class A & Class B networks
- Class A, B Subnetting Examples
Lecture # 16 - CIDR
- VLSM
- IPv4 vs IPv6
- IPv6
Lab # 9- Class B Subnetting Lab
Lecture # 17 -
- History and future of TCP/IP
- Application layer
- DNS Servers & Root Hints
Lab # 10- HTTP lab
Lecture # 18 - Transport layer
- TCP and UDP
- NAT
Lab # 11- email lab
Lecture # 19 - Internet layer
- Network Access layer
- How the Internet works?
Lab # 12- Final Project:
It includes
- DHCP, DNS, HTTP, email servers.
- Different subnets with their respective gateways.
- Static and RIP is used.
Lecture # 20 - Intro to IoT
Lab # 13 - IoT Lab (Smart Home)
Lecture # 21 - Introduction to Cybersecurity
Lab # 14 - Cybersecurity Lab (De-authenticating a Wireless host)
- Basic Components of Networks
- Network Topologies
- MAC Addresses
- IP Addresses
- NIC
- What is a Server?
Lecture # 2- Basic Components of Networks
- Lab tools
- Cable Types:
- Coaxial Cables.
- Twisted-pair cables.
- Fiber optics Cables.
Lab # 1- Cabling Lab
- Lab # 1.1- Straight-Through Cable Construction.
- Lab # 1.2- Crossover Cable Construction.
- Lab # 1.3- Cable Testing. Lab manual
Lecture # 3- Number conversion:
- Binary to Decimal Conversion
- Decimal To Binary Conversion
- IPV4 Addressing:
- IP Classes
- Default Subnet Mask
- Network and host addresses. Chapter 2: IP addressing
Lecture # 4- How to calculate a Net ID?
- Unicasting, Broadcasting and Multicasting.
- Class C example. Chapter 2: IP addressing
Lab # 2- RJ-45 Jack Punch Down (Wiring Closet & Network wall-mount).
Lecture # 5- Class B example.
- Class A example.
- Homework # 1- IP Addressing Basics.
Lecture # 6- Private IP addresses
- DHCP Client.
Lab # 3- Building a Network:
- Lab # 3.1 – Peer to peer network.
- Lab # 3.2 – Building a Switch-based Network.
- Lab # 3.3 – DHCP lab.
Lecture # 7- APIPA Addressing
- Homework # 2- TCP/IP Configurations.
- DNS service. Chapter 2: IP addressing
Lab # 4 - DNS Lab.
Lecture # 8- OSI model
- OSI 7 layers
- Encapsulation Process
- Layer 1 Network devices
- Repeaters
- Hubs
Lecture # 9- Collisions and Collision domains
- CSMA/CD
- Half- duplex & Full-duplex Ethernet
- Repeaters vs Hubs
Lab # 5- Gateway Lab.
Lecture #10 - Layer 2 Network devices
- Bridges
- Switches
- Broadcast Storm
- Bridges vs Switches
- Hubs vs Switches
Lecture # 11 - Layer 3 Network devices – Routers.
- Collision and Broadcast domains.
- Switches vs Routers.
- Forwarding and Routing tables in the Router.
- Data Flow.
- Routing to another LAN.
Lecture # 12- Static Routes.
- Dynamic Routing Protocols (RIP & OSPF).
- Administrative Distances.
Lab # 6- Routing labs:
- Lab # 6.1 - Building a Routable-based Network using Static Route.
- Lab # 6.2 - Building a Routable-based Network using RIP.
Lecture # 13 - Troubleshooting methods.
Lab # 7 – Troubleshooting Lab.
Lecture # 13 - Technical Interview
Lecture # 14 - Introduction to subnetting
- Subnetting Class C networks
- Class C Subnetting Example
Lab # 8- Class C Subnetting Lab
Lecture # 15 - Subnetting Class A & Class B networks
- Class A, B Subnetting Examples
Lecture # 16 - CIDR
- VLSM
- IPv4 vs IPv6
- IPv6
Lab # 9- Class B Subnetting Lab
Lecture # 17 -
- History and future of TCP/IP
- Application layer
- DNS Servers & Root Hints
Lab # 10- HTTP lab
Lecture # 18 - Transport layer
- TCP and UDP
- NAT
Lab # 11- email lab
Lecture # 19 - Internet layer
- Network Access layer
- How the Internet works?
Lab # 12- Final Project:
It includes
- DHCP, DNS, HTTP, email servers.
- Different subnets with their respective gateways.
- Static and RIP is used.
Lecture # 20 - Intro to IoT
Lab # 13 - IoT Lab (Smart Home)
Lecture # 21 - Introduction to Cybersecurity
Lab # 14 - Cybersecurity Lab (De-authenticating a Wireless host)
Location
At teacher's location :
- جناح, Jnah, Lebanon
Online from Lebanon
About Me
- Collaborating as an Associate Researcher in Lab-STICC at ENSTA-Bretagne since April 2021 till present.
- Working as an Assistant professor in different universities (AUL, AUCE and MUBS) since Dec 2018 till present.
- Elected to the grade of "IEEE Senior Member" since Dec 2020.
- Enrolled as a Post-Doc in Lab-STICC at ENSTA-Bretagne (2019 - 2020).
- Obtained my Ph.D. degree in "Telecommunication" from "Ecole Nationale Supérieure de Techniques Avancées Bretagne (ENSTA-Bretagne)" (Brest, France) in Dec 2018.
- Worked as a Lecturer and Lab Instructor in the higher education field and delivered networking courses and ICT programs in classrooms and online courses (2006-2018).
- First author of several papers in prestigious international conferences and journals, such as the Journal of Engineering, IET Communication, and IEEE conferences.
- My current research focuses on: IoT, MIoT, IoT security, and Cyber Security.
- Working as an Assistant professor in different universities (AUL, AUCE and MUBS) since Dec 2018 till present.
- Elected to the grade of "IEEE Senior Member" since Dec 2020.
- Enrolled as a Post-Doc in Lab-STICC at ENSTA-Bretagne (2019 - 2020).
- Obtained my Ph.D. degree in "Telecommunication" from "Ecole Nationale Supérieure de Techniques Avancées Bretagne (ENSTA-Bretagne)" (Brest, France) in Dec 2018.
- Worked as a Lecturer and Lab Instructor in the higher education field and delivered networking courses and ICT programs in classrooms and online courses (2006-2018).
- First author of several papers in prestigious international conferences and journals, such as the Journal of Engineering, IET Communication, and IEEE conferences.
- My current research focuses on: IoT, MIoT, IoT security, and Cyber Security.
Education
- Ph.D. in Telecommunication, ENSTA-Bretagne, Brest-France (2018)
- Master of Science & Communication, Arts, Sciences and Technology University, Lebanon
(2010)
- Bachelor of Engineering, Damascus University, Syria (1997)
- Master of Science & Communication, Arts, Sciences and Technology University, Lebanon
(2010)
- Bachelor of Engineering, Damascus University, Syria (1997)
Experience / Qualifications
Teaching the following courses at different universities:
- Web Pentesting
- Cybersecurity
- Intro to Cybersecurity
- Technical Writing with Latex
- Research Methods
- Modeling IoT Networks
- Simulating IoT Networks
- Programming IoT Networks with Arduino
- Intro to IoT Networks
- Advanced Networks
- Technical Writing
- Networking Essentials
- CCNA Academic Courses & Labs
- Web Pentesting
- Cybersecurity
- Intro to Cybersecurity
- Technical Writing with Latex
- Research Methods
- Modeling IoT Networks
- Simulating IoT Networks
- Programming IoT Networks with Arduino
- Intro to IoT Networks
- Advanced Networks
- Technical Writing
- Networking Essentials
- CCNA Academic Courses & Labs
Age
Teenagers (13-17 years old)
Adults (18-64 years old)
Student level
Beginner
Intermediate
Duration
60 minutes
The class is taught in
English
Arabic
Reviews
Availability of a typical week
(GMT -05:00)
New York
At teacher's location and via webcam
Mon
Tue
Wed
Thu
Fri
Sat
Sun
00-04
04-08
08-12
12-16
16-20
20-24
Our course objectives are structured to cover three main areas: First, the students should understand the basic concepts of a simulator, second, they should understand how the TCP/IP protocol suite is modelled in OMNeT++ and third, they should understand how to analyse a TCP/IP based communication network. After the completion of exercises, the students are expected to have a sound knowledge of using OMNeT++ with the INET framework to analyse a communication network. Finally, the student will learn how to model different IoT networks in SimuLTE modeler.
This course provides an exploratory study of cybersecurity concepts, principles, and technologies. Major topics covered include cyber threats and vulnerabilities, information security frameworks, network infrastructure security, wireless network security, cryptography, defense-in-depth security strategy, information security policy, and security management.
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