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Updated in [February 21st, 2023]

Learning Value:

You will gain a comprehensive understanding of the basics of wireless networking, including WiFi standards, Radio Frequency (RF), WiFi planning concepts, MIMO, RF channels, and RF interference. You will also learn how to compare the differences between a wired and a wireless network, identify WLAN organizations that set Wi-Fi standards and the basics of radio communication. This course will provide you with the foundational knowledge to set up a wireless network and understand how wireless functions at a basic level. Additionally, you will have access to Aruba Education Services, which offers comprehensive training from fundamental to advanced levels across Aruba's wired, wireless, security, and cloud-managed networking portfolio.

[Applications]
Upon completion of Aruba Mobility Basics, learners will have a better understanding of the fundamentals of wireless networking, including WiFi standards, Radio Frequency (RF), WiFi planning concepts, MIMO, RF channels, and RF interference. This knowledge can be applied to a variety of networking scenarios, such as setting up a wireless network, troubleshooting wireless issues, and understanding the basics of network security.

[Career Paths]
Job Position Paths:
1. Network Security Engineer: Network security engineers are responsible for designing, implementing, and maintaining secure networks. They must have a deep understanding of network security technologies, such as firewalls, intrusion detection systems, and encryption protocols. They must also be able to identify and respond to security threats. As the demand for secure networks increases, the demand for network security engineers is expected to grow.

2. Wireless Network Engineer: Wireless network engineers are responsible for designing, implementing, and maintaining wireless networks. They must have a deep understanding of wireless technologies, such as radio frequency (RF), WiFi standards, and MIMO. They must also be able to identify and respond to wireless network issues. As the demand for wireless networks increases, the demand for wireless network engineers is expected to grow.

3. Network Administrator: Network administrators are responsible for managing and maintaining networks. They must have a deep understanding of network technologies, such as routers, switches, and firewalls. They must also be able to identify and respond to network issues. As the demand for reliable networks increases, the demand for network administrators is expected to grow.

4. Network Architect: Network architects are responsible for designing and implementing networks. They must have a deep understanding of network technologies, such as routing protocols, network topologies, and network security. They must also be able to identify and respond to network design issues. As the demand for secure and reliable networks increases, the demand for network architects is expected to grow.

[Education Paths]

1. Bachelor of Science in Computer Science: This degree path focuses on the fundamentals of computer science, including programming, software engineering, and computer architecture. It also covers topics such as artificial intelligence, machine learning, and data science. This degree path is becoming increasingly popular as technology advances and more businesses rely on computer systems for their operations.

2. Bachelor of Science in Network Security: This degree path focuses on the security of computer networks and systems. It covers topics such as cryptography, network security protocols, and network security architecture. It also covers topics such as risk management, incident response, and digital forensics. This degree path is becoming increasingly important as businesses rely more heavily on computer networks for their operations.

3. Master of Science in Cybersecurity: This degree path focuses on the advanced topics of cybersecurity, such as advanced cryptography, malware analysis, and digital forensics. It also covers topics such as risk management, incident response, and digital forensics. This degree path is becoming increasingly important as businesses rely more heavily on computer networks for their operations.

4. Master of Science in Information Technology: This degree path focuses on the fundamentals of information technology, including software engineering, database management, and network security. It also covers topics such as artificial intelligence, machine learning, and data science. This degree path is becoming increasingly popular as technology advances and more businesses rely on computer systems for their operations.