CCNP Wireless Training

CCNP Wireless Design and Mobility Infrastructure

Domain understanding of network solutions
Certified trainers in CCNP Wireless Training
Understands the local and wide area networks
Knowledge of routeing and switching
Ideal for network delegates
Delegate obtains high salary

CCNP Wireless Training course explains about designing, implementing and functioning Cisco Wireless networks. It also explains about mobility infrastructures. CCNP Wireless certification emphasizes wireless networking in both values as well as theory.

It also recognizes the expertise and technical shrewdness of wireless professionals. Such professionals can evaluate and translate network business supplies into technical specifications. This in turn, is combined into successful installations.

Who should take this course

Network engineers
System administrators
Network managers system engineers

Valid CCNA Wireless certification or
Valid CCIE certification

Implement small and remote access wireless networks using FlexConnect, Independent or Cloud designs
Perform first WLAN maintenance and troubleshooting
Describe the requirements for a WLAN design
Perform a United wireless access network using IOS-XE converged entrance switches and wireless LAN controllers
Understand the basic RF principles and characteristics
Learn WLAN security procedures and access to differing client plans
Define the Cisco WLAN architecture and the underlining infrastructure used to support it
Implement a Centralised wireless access network using AireOS or IOS-XE wireless LAN controllers
Determine the necessary resources and implement VLAN based solution
Create Layer 3 Path Control Solutions and broadband connections
Managing security of the WLAN using integrated security features of network controller
Designing infrastructure devices for implementing a voice-over-WLAN
Preparing the wireless LAN for high-bandwidth applications and video support
Integrating WLAN controller with high-security stages of a wired network
Implement advanced VoIP, video, and wireless support solutions
Implement High Availability and confirm using show & debug commands
Strategy and Implement a Security Extension of Layer 2 solutions
Design and configure Switch based Layer 3 services
Implement an eBGP based solution and configure eBGP routeing
Setup an IPv6 based solution and document implementation results
Implement and configure an IPv4 or IPv6 redistribution solution
Maintain the network and develop a plan to monitor performance
Troubleshoot Multi-Protocol systems, such as EIGRP, NAT and OSPF
Implement and configure an EIGRP based solution
Create a multi-area OSPF Network and configure OSPF routeing
Performing site surveys for voice, location and data applications
Knowing Location-based Services & Mobility Services Engine

Courseware

Pre Course Material

Tutor Support

Certificate

Course Overview

CCNP Wireless training course focuses on the designing, implementing and securing Wireless Networks. The course lays significant emphasis on the principles and theories of the wireless networks. They set the foundations of the building and maintaining the wireless network infrastructure.

Exam:

Closed or Open Book Exam
Exam Type: Objective
Duration: 90 minutes
Pass %age: 45

Course Content

Describe, and design voice ended wireless architecture

Design wireless for voice
Utilise other design considerations, as per the view design guide (VAD, MoH, Load balancing, and so on)
Define voice as it applies to the wireless network
Validate infrastructure requirements for end-to-end voice over wireless (CUCM, CUCME, QoS, ACS, DHCP, TFTP, routers, security devices, etc.)
Describe VoWLAN integration with cellular providers
Validate wireless network design for voice readiness

Implement VoWLAN

Configure wireless client devices
Set the WLAN for VoWLAN
Troubleshoot VoWLAN implementation

Implement multicast over wireless

Configure multicast in a wireless network
Troubleshoot multicast in a wireless network
Describe general multicast concepts
Describe implications for multicast in 802.11

Implement QoS for wireless applications

Describe and perform general considerations for wired QoS
Describe and apply the appropriate Wireless QoS deployment schemes
Configure WCS/WLC for QoS
Reference most current best practice guidelines

Prepare the wireless network for video/high-bandwidth applications

Explain benefits of 802.11n for video
Identify application specific wireless network requirements
Determine bandwidth requirements for specified applications

Design and deploy WLAN infrastructure for mobility

Configure single Service Set Identifier (SSID) plans w/mobility
Analyse implications of L2 and L3 roaming
Tune RF situation for context-aware services
Troubleshooting inter-controller communications
Troubleshoot AP join process using the following solutions
Implement the following Cisco Unified Wireless best practices
Define and implement mobility groups/list
Implement high availability
Adjust authentication/EAP timers

Deploy and manage indoor and outdoor Mesh

Describe wireless Mesh and its benefits
Identify the following Mesh operation modes:
Apply Mesh
Explain Mesh convergence
Utilise Cisco WCS for Mesh monitoring
Use workgroup bonds

Perform advanced services and manage with Cisco WCS and Navigator

Describe Navigator's role, types, and occupations
Configure background tasks
Configure and apply controller and access point templates
Monitor and convert autonomous Apps
Install and maintain Cisco WCS/Navigator and complete the following tasks
Configure WLC auto-provisioning
Utilise configuration auditing in Cisco WCS
Implement Cisco WCS partitioning and Navigator domains
Perform time of day AP power savings
Implement scheduled WLAN availability
Create and customise Cisco WCS reports

Plan and assimilate wireless network with NAC

Define the architectures; inband, out-of-band, agent vs. agentless, and the Cisco Network Admission Control (NAC) appliance.
Define the high-level authentication process flow
Configure the WLC for Network Access Controller (NAC)
Verify wireless authentication with NAC

Design and implement Guest Access services

Describe the architectures for guest access services
Set guest access accounts
Configure controller web authentication
Set the anchor and internal controllers
Troubleshoot guest access issues

Device MSE style

Integrate and manage MSE with Cisco WCS integration with wireless network architecture
Maintain MSE
Troubleshoot MSE operations
Deploy context-aware facilities for specific environments
Integrate third-party applications

Implement secure wireless connectivity services

Configure authentication
Configure autonomous AP for RADIUS authentication
Set management frame protection on clients, APs and controllers
Configure IBN (RADIUS-based VLAN and ACLs, AAA override)
Define ACS restrictions for integration with wireless network
Determine client and server-side digital certificate requirements
Implement ACLs on controller
Troubleshoot secure wireless connectivity services

About Edinburgh

Edinburgh is the center city of Scotland. It is situated in Lothian on the Firth of Forth's southern coast.

Considered to be the center of Scotland ,Edinburgh plays host to the Scottish Parliament and the Royal Monarchs in Scotland. Factually part of Midlothian, the city has long been a center of learning. Its mainly a haven for those students who wish to study medicine, Scots law, literature, the sciences and engineering. Next to London, it is the it is the main financial center. The city's past and cultural pulls have made it the United Kingdom's second most common traveler terminus after London. Edinburgh entices over one million overseas visitors each year.

The second most populous city in Scotland, Edinburgh ranks seventh in the United Kingdom. The 2016 official population estimations are 464,990 for the city of Edinburgh.

Geography

Located in Scotland's Central Belt, Edinburgh lies on the Firth of Forth's southern shore. The city center is 2.5 miles southwest of the shoreline of Leith and 26 miles inland from the east coast of Scotland and the North Sea at Dunbar. While the early burgh came up near the prominent Castle Rock, the modern city is often said to be constructed on seven hills. These hills include Calton Hill, Corstorphine Hill, Craiglockhart Hill, Braid Hill, Blackford Hill, Arthur's Seat and the Castle Rock. They make it appear like the Seven Hills of Rome.

Edinburgh occupies a small gap between the Firth of Forth to the north and the Pentland Hills and their outrunners to the south. It is spread over a landscape the product of early volcanic activity and later intensive glaciation. Much of the area is predominated by the Igneous activity that occurred between 350 and 400 million years ago. The actity was later coupled with faulting and led to the creation of tough basalt volcanic plugs. Glacial erosion on the north side of the crag created a deep valley that was later filled by the Nor Loch. These plugs and valleys coupled with a hollow on the rock's south side, formed a natural strongpoint to build the Edinburgh Castle. Arthur's Seat is the remains of a volcano dating from the Carboniferous period, which was eroded by a glacier moving west to east during the ice age. This process formed the distinctive Salisbury Crags. The residential areas of Marchmont and Bruntsfield are built along the city centre from where the glacier receded.