Designing Cisco Wireless Networks: High Availability from Pluralsight

No one wants an outage. Prevent downtime by designing redundancy into your wireless network. In this course, learn how to design various redundant systems into your network to ensure a quality experience for your clients.

Good wireless network engineers need to understand how to prevent network outages and ensure a stable system for its users. In this course, Designing Cisco Wireless Networks: High Availability, you'll learn to design for resiliency and ensure your infrastructure, wireless controllers, and access points remain available. First, you'll learn how to provide redundant cabling with link aggregation. Next, you'd explore enabling controller fail over capabilities with SSO and NSF. Then, you'll discover how to configure controller priority. Finally, you'll learn to design resiliency into your access points by configuring load balancing, and enabling prioritization and fallback. When you're finished with this course, you'll have the skills and knowledge of wireless design needed to implement a resilient wireless network. Software required: none.

What's inside

Syllabus

Course Overview

Ensuring Controller Resiliency

Ensuring Access Point Resiliency

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

Develops network design skills that ensure your wireless controllers, infrastructure, and access points have the highest uptime possible

Teaches how to configure reliable and redundant systems that prevent network outages

Taught by instructors who are recognized for their work in wireless design

Through configuring load balancing and fallbacks, this course helps you design wireless networks with maximum uptime

This course belongs to a series about Cisco Wireless Networks, which may indicate comprehensiveness and detail

Software required: none

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Designing Cisco Wireless Networks: High Availability with these activities:

Review Networking Basics

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Refreshes foundational networking skills

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Review network topologies
Understand the OSI model
Identify common network protocols
Describe basic network security concepts

Read 'Wireless Network Security' by Andrew Crouthamel

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Provides complementary knowledge on wireless security, which is essential for network resilience

View Mastering Wireshark 2 on Amazon

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Obtain a copy of 'Wireless Network Security'
Read the book and take notes
Apply the knowledge gained to your network designs

Follow Tutorial on Redundant Link Aggregation

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Provides practical experience in configuring redundant links

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Find a tutorial on link aggregation
Follow the instructions in the tutorial
Configure link aggregation on a network device

Two other activities

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Configure and Test Controller Failover

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Reinforces understanding of how to ensure controller availability

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Set up a lab environment with multiple controllers
Configure controller failover using SSO and NSF
Test the failover configuration

Design a Redundant Wireless Network Topology

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Applies concepts of redundancy to a real-world network design scenario

Browse courses on Wireless Network Design

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Identify the requirements for a redundant wireless network
Research different wireless network topologies
Design a redundant wireless network topology

Career center

Learners who complete Designing Cisco Wireless Networks: High Availability will develop knowledge and skills that may be useful to these careers:

Network Engineer

As a Network Engineer, you will design, implement, and manage computer networks. With the help of this course, you will be able to ensure the resiliency and stability of wireless networks, which is a crucial aspect of network engineering. Understanding the concepts of redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback will equip you with the necessary knowledge to prevent network outages and provide a high-quality experience for clients. Especially for an aspiring network engineer, this course provides a foundational understanding of high availability in wireless networks, making it a valuable addition to your skillset.

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Wireless Network Administrator

The Wireless Network Administrator is responsible for managing and maintaining wireless networks. Taking this course will enhance your understanding of how to implement redundant systems in wireless networks to ensure continuous availability. The knowledge gained from this course, including link aggregation, controller failover, controller priority, access point load balancing, and fallback mechanisms, will empower you to design and manage resilient wireless networks that provide reliable connectivity to users.

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Network Architect

Network Architects design and implement network infrastructure, including wireless networks. By taking this course, you will gain insights into designing highly available wireless networks. You will learn about various methods to provide redundancy in wireless networks, such as redundant cabling, controller failover capabilities, controller priority, load balancing, prioritization, and fallback. This knowledge will help you create robust and reliable network designs.

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Network Security Engineer

Network Security Engineers are responsible for protecting networks from security threats. This course will help you understand how to design wireless networks that are resistant to outages and attacks. By learning about redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback mechanisms, you can implement security measures that ensure the availability and integrity of wireless networks.

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IT Manager

IT Managers oversee the planning, implementation, and management of IT systems, including wireless networks. Gaining knowledge from this course can help you make informed decisions about wireless network design and implementation, considering factors such as redundancy, reliability, and security. You will learn about various techniques to ensure high availability, such as redundant cabling, controller failover, controller priority, load balancing, prioritization, and fallback.

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Systems Engineer

Systems Engineers design, implement, and maintain complex technical systems, including wireless networks. This course will provide you with valuable knowledge in designing resilient and reliable wireless networks. You will gain an understanding of different methods to achieve redundancy, such as link aggregation, controller failover, controller priority, load balancing, prioritization, and fallback. This knowledge will enable you to create robust systems that meet the demands of critical applications.

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Technical Support Engineer

Technical Support Engineers provide technical support to users of network systems, including wireless networks. Understanding the concepts taught in this course will enhance your ability to troubleshoot and resolve network issues related to availability. You will learn about redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback mechanisms, empowering you to quickly identify and resolve network outages and maintain network uptime.

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Cloud Architect

Cloud Architects design and implement cloud computing solutions, including wireless networks. This course will help you understand the principles of designing highly available wireless networks in the cloud. You will learn about various techniques to ensure redundancy and reliability, such as redundant cabling, controller failover, controller priority, load balancing, prioritization, and fallback. This knowledge will be valuable in designing cloud-based wireless networks that meet the requirements of modern applications.

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Network Consultant

Network Consultants provide advice and guidance on network design, implementation, and management, including wireless networks. Taking this course will enhance your knowledge of wireless network design, with a focus on high availability. You will learn about redundant cabling, controller failover capabilities, controller priority, load balancing, prioritization, and fallback mechanisms. This knowledge will enable you to make informed recommendations to clients, ensuring the reliability and performance of their wireless networks.

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Project Manager

Project Managers plan, execute, and manage projects, including wireless network projects. By taking this course, you will gain insights into the design considerations for high availability in wireless networks. You will learn about different methods to provide redundancy, such as redundant cabling, controller failover, controller priority, load balancing, prioritization, and fallback. This knowledge will enable you to effectively manage wireless network projects, ensuring that they meet the requirements for reliability and uptime.

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Cybersecurity Analyst

Cybersecurity Analysts protect computer systems and networks from security threats. This course may be useful for Cybersecurity Analysts who are responsible for securing wireless networks. Understanding the concepts of high availability in wireless networks, such as redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback, will provide you with a deeper understanding of potential vulnerabilities and assist you in developing more effective security strategies.

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Data Analyst

Data Analysts analyze data to extract insights and inform decision-making. This course may be useful for Data Analysts who are involved in analyzing data related to wireless networks. Understanding the principles of high availability in wireless networks, such as redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback, will enable you to better understand the data and provide more accurate and insightful analysis.

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Quality Assurance Engineer

Quality Assurance Engineers ensure the quality of software and hardware products. This course may be useful for Quality Assurance Engineers who are involved in testing wireless networks. Understanding the principles of high availability in wireless networks, such as redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback, will enable you to more effectively evaluate the reliability and performance of wireless networks.

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Software Developer

Software Developers design, develop, and maintain software applications. This course may be useful for Software Developers who are working on developing software for wireless networks. Understanding the concepts of high availability in wireless networks, such as redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback, will enable you to develop more reliable and robust software applications.

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Business Analyst

Business Analysts analyze business needs and develop solutions to improve business processes. This course may be useful for Business Analysts who are involved in analyzing and improving wireless networks. Understanding the principles of high availability in wireless networks, such as redundant cabling, failover capabilities, controller priority, load balancing, prioritization, and fallback, will enable you to better understand the business impact of network outages and provide more effective solutions.

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