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On this accelerated 14-day Cisco CCNP Wireless course, you'll develop advanced knowledge of wireless technologies.
You'll be immersed in the curriculum with our unique Lecture | Lab | Review technique, which combines classroom lectures and practical exercises to help you learn how to design, implement, and operate Cisco Wireless networks and mobility infrastructures, faster.
Your expert instructor will guide you through networking principles and theory and teach you how to assess and translate network business requirements into technical specifications that in turn, are combined into successful installations.
During the course, you'll prepare for and sit the following four exams, covered by your Certification Guarantee.
Reasons for Cisco certification include career advancement, personal improvement, skills enhancement, higher earnings, and increased on-the-job productivity.
Effective technical instruction must be highly varied and interactive to keep attention levels high, promote camaraderie and teamwork between the students and instructor, and solidify knowledge through hands-on learning.
1.1 Identify business and RF application needs
1.2 Identify client density, capabilities and their impact on the wireless network
1.3 Identify the challenges of setting up a wireless network by various vertical markets
1.4 Describe required site survey documentation
1.5 Identify coverage area requirements
2.1 Describe the impact of regulatory domains
2.2 Identify deployment location safety considerations
2.3 Identify the impact of customer aesthetic limitations on the installation
2.4 Assess the existing wired and wireless infrastructure
2.5 Identify impact of material attenuation
3.1 Select the criteria used for coverage design
3.2 Demonstrate the impact of frequency planning in a high-density environment
3.3 Use PI and Ekahau planning tools to make network plan
4.1 Identify the appropriate site survey equipment and access requirements based on environmental needs
4.2 Complete the Layer 2 site survey for indoor, and outdoor MESH environments
4.3 Complete Layer 1 survey (Cisco CleanAir, Metageek Chanalyzer)
5.1 Verify RF coverage
5.2 Verify network applications and performance
5.3 Reconcile any deployment issues
5.4 Assemble and deliver installation report to the customer
6.1 Determine physical infrastructure requirements
6.2 Determine logical infrastructure requirements
6.3 Describe IPv6 optimisation on the WLC
7.1 Describe the relationship between real-time applications & the wireless networks
7.2 Describe voice and video as they apply to the wireless network
7.3 Describe real-time applications (other than voice and video) as they apply to the wireless network
7.4 Design wireless roaming parameters for supporting real-time applications
7.5 Design wireless parameters for supporting real-time applications
1.1 Describe and implement general considerations for wired QoS
1.2 Describe and implement the appropriate wireless QoS deployment schemes
1.3 Configure infrastructure QoS for wireless clients
1.4 Implement AVC
2.1 Describe general multicast concepts
2.2 Describe implications for multicast in 802.11
2.3 Configure multicast in a wireless network
2.4 Configure mDNS
3.1 Design for High Density
3.2 Implement RXSOP
3.3 Implement enhanced roaming
3.4 Implement AP Groups
3.5 Implement interface groups
3.6 Implement client limits
4.1 Describe the impact of client VLAN assignment on mobility
4.2 Minimise inter-controller roaming
4.3 Describe mobility control plane architectures
4.4 Describe mobility tunneling process
4.5 Implementing client mobility
5.1 Describe Cisco MSE capabilities and integration with wireless network architecture
5.2 Describe location techniques
5.3 Identify the relevant parameters required Initialise MSE for network operations
5.4 Implement base location services
5.5 Implement advanced location services
6.1 Compare and contrast the components of FlexConnect architecture
6.2 Describe and implement the capabilities of a FlexConnect group
6.3 Describe the impact of FlexConnect architecture on roaming
6.4 Describe and implement Office Extend operation
7.1 Configure the wireless network for high availability
7.2 Configure high availability for the AP
7.3 Configure high availability for the Controller
8.1 Describe the following MESH AP modes of operation
8.2 Describe the considerations for a MESH deployment
8.3 Describe the convergence of a MESH network
8.4 Implement workgroup bridge
8.5 Describe the passive client feature
1.1 Apply the appropriate troubleshooting methods to identify an issue
1.2 Utilise the appropriate tools to assist in isolating an issue
2.1 Resolve controller discovery issues
2.2 Resolve DTLS session establishment issues
2.3 Resolve AP Joining issues
3.1 Identify and resolve authentication issues
3.2 Identify RF signal issues
3.3 Resolve supplicant configuration issues – (iOS, Android, Windows, MAC OS, year 2013+)
3.4 Troubleshooting autonomous AP links
4.1 Identify and mitigate rogues
4.2 Manage non-802.11 interferences
5.1 Characterise roaming issues
5.2 Evaluate throughput and data rate issues
5.3 Identify the source of poor user experience
6.1 Identify DHCP - DHCPv4 / DHCPv6 issues
6.2 Identify DNS issues
6.3 Identify VLAN issues
6.4 Analyse end to end IP connectivity issues
6.5 Assess POE issues
6.6 Describe stacking as it related to wireless licenses and WCM role
7.1 Troubleshoot primary, secondary, tertiary controller join issues
7.2 Troubleshoot Stateful Switch Over (SSO) issues
1.1. Describe Extensible Authentication Protocol (EAP) authentication process
1.2. Configure client for secure EAP authentication
1.3. Describe the impact of security configurations on application and client roaming
1.4. Implement 802.11w Protected Management Frame (PMF) on the WLAN
1.5. Implement Cisco Management Frame Protection (MFP)
1.6. Describe and configure client profiling
2.1. Describe the impact of BYOD on wireless security
2.2. Implement BYOD policies
2.3. Implement AAA based Layer 3 security on the controller
2.4. Describe regulatory compliance considerations for protecting data and access and providing accountability
2.5. Utilise security audit tools for Distribution Systems
3.1. Implement 802.1x wireless client authentication
3.2. Implement Identity Based Networking (IBN)
3.3. Implement ISE AAA parameters for integration with the wireless network
3.4. Implement AAA based Layer 3 security using ISE
3.5. Configure MSE based web authentication
3.6. Utilise security audit tools for client connectivity
4.1. Controlling administrative access to the wireless infrastructure
4.2. Configure APs and switches for 802.1x access to the wired infrastructure
4.3. Implement SNMPv3 on the wireless infrastructure
5.1. Execute Security reports on PI
5.2. Perform Rogue Management
5.3. Monitor rogue APs and clients
5.4. Monitor Alarms
5.5. Identify RF related Security interferers on WLC and PI Maps
5.6. Implement wIPS
You'll sit the following exams at the Firebrand Training Centre during the course, covered by your Certification Guarantee:
Included on this course:
Your accelerated course includes:
Before taking this course, you must have gained a valid Cisco CCNA Wireless certification or any Cisco CCIE certification.
We interview all applicants for the course on their technical background, degrees and certifications held, and general suitability. If you get through this screening process, it means you stand a great chance of passing.
Firebrand Training is an immersive training environment. You must be committed to the course. The above prerequisites are guidelines, but many students with less experience have other background or traits that have enabled their success in accelerated training through Firebrand Training.
If you have any doubts as to whether you meet the pre-requisites please call 09 - 31 587 431 and speak to one of our enrolment consultants, who can help you with a training plan.
We've currently trained 134.561 students in 12 years. We asked them all to review our Accelerated Learning. Currently,
96,40% have said Firebrand exceeded their expectations:
"Really enjoyed the course. It was thoroughly taught and in depth. Made sure there was plenty of opportunities to ask questions and then spent time explaining the answers to the questions making sure everyone understood the content both online and in person."
Anonymous. (9/10/2023 (Monday) to 14/10/2023 (Saturday))
"Easy to connect and follow on distance. Almost feels like I''m in the classroom. The camera and the sharing screen interacts very well. No matter the exam result. Thank you tutor!"
IG. (9/10/2023 (Monday) to 14/10/2023 (Saturday))
"Great teacher, very knowledgeable in all areas of Networking, his way of instructing is truly unique, explaining things in great details to the enth degree is what you need on a course like the and the tutor exceeded expectations, I would definitely recommend the Firebrand CCNA training to any of my fellow IT colleagues."
Cameron Tonkin, Semperian. (9/10/2023 (Monday) to 14/10/2023 (Saturday))
"The organisation of the course was very professional. The course was well delivered, and included detailed explanation of all topics."
CF. (9/10/2023 (Monday) to 14/10/2023 (Saturday))
"Patient, knowledgeable, humorous and great instructor. It''s a long course, but he made it much more manageable with regular breaks, a mix of slides and whiteboards, and real-world examples and analogies."
JP. (9/10/2023 (Monday) to 14/10/2023 (Saturday))
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