NAS-CBR Instructors
Yomayra Valdez
- Sales executive
- Networking and Telecommunications Engineer
- MikroTik Trainer (since 2018)
- Trainer Academy Xperts (since 2018)
Kevin Moran
- Project Engineer
- Systems Engineer with a mention in Telematics
- MikroTik Trainer (since 2016)
- Ubiquiti Trainer (since 2016)
- Trainer Academy Xperts (since 2015)
louis square
- Project Engineer
- Systems Engineer with a mention in Telematics
- MikroTik Trainer (since 2017)
- Ubiquiti Trainer (since 2012)
- Trainer Cambium Networks (since 2019)
- Trainer Academy Xperts (since 2012)
Ingrid Espinoza
- Project Engineer
- Networking and Telecommunications Engineer
- MikroTik Trainer (since 2017)
- Trainer Academy Xperts (since 2016)
Darwin Barzola
- Project Engineer
- Bachelor in Networks and Operating Systems
- MikroTik Trainer (since 2016)
- Ubiquiti Trainer (since 2015)
- Trainer Academy Xperts (since 2014)
Mauro Escalante
- CEO & CTO Academy Xperts
- Engineering in Computer Science
- MikroTik Trainer (since 2009)
- Trainer Academy Xperts (since 2011)
- Network Analysis and Troubleshooting Specialist
Course Objectives
The NAS-CBR Course (Basic Network Course) is a complete introduction to the world of networks and its objective is to teach students the basic concepts necessary to understand and configure local and wide area networks. Below are the objectives of each chapter of the course:
Chapter 1: Introduction to Networks
In this chapter, students will learn the fundamentals of networking, the characteristics of a network, the impact of networks, and the different types of network devices, media, and topologies. Additionally, network architecture and security solutions will be covered.
Chapter 2: Layer Models
This chapter covers layer models, including the OSI Model and the TCP/IP Model. Students will learn about the different layers of each model and how data is processed during transmission.
Chapter 3: Network Device Area Layers
In this chapter, the physical and data link layers are covered, including the different types of physical media, the MAC address, and the network layer. Students will learn about IP addresses, address classification, binary-decimal and decimal-binary conversion, and the differences between IPv4 and IPv6.
Chapter 4: End Device Area Layers
This chapter covers the transport layer and the application layer, including the TCP and UDP protocols, well-known and registered ports, and different application protocols.
Chapter 5: Subnetting, VLSM, Summarization
Students will learn about the subnet mask, the different types of IP addresses, the ANDing process, and the concepts of subnetting, VLSM, and summarization.
Chapter 6: Routing
This chapter covers general routing concepts, the routing table, route labels, and different types of routing protocols.
At the end of this course, participants will be able to configure and administer basic networks, understand the architecture and topology of networks, manage and solve common network problems, know the basic concepts of the OSI and TCP/IP layer models, understand the different types of network devices and LAN, WAN and WLAN network technologies.
Essential knowledge that you must have for this course
It is important that you are familiar with various networking concepts, without which your learning process could slow down. Below we leave you a list of videos for you to review if your knowledge on these topics is not very clear.