CCNP Wireless Training

CCNP Wireless training with MSP Training at best price.

ABOUT THE PROGRAM

The motive of developing CCNP Wireless Training is to make candidate proficient at design, execution and functioning of Cisco Wireless networks. Furthermore, this training includes the comprehensive explanation about mobility set-ups. During the advancement of the CCNP Wireless certification, MSP training gives due importance to the theory as well as a practical portion of Wireless networking course. It also acknowledges the command and technical insight of wireless professionals who can classify and convert network business inputs into required technical descriptions. 

  • Sectional awareness of network solutions

  • Well trained Faculty arranges for delivering CCNP Wireless Training

  • Master the concept of LAN and WAN networks

  • Awareness of routing and switching

  • Aim for high perks after certification

  • One to one doubt clearing sessions after lectures

WHAT'S INCLUDED ?

Find out what's included in the training programme.

Includes

Courseware

Courseware will also be provided to the delegates so that they can revise the course after the training.

Includes

Pre Course Material

It provides some basic knowledge about the course before training.

Includes

Tutor Support

A dedicated tutor will be at your disposal throughout the training to guide you through any issues.

Includes

Certificate

Delegates will get certification of completion at the end of the course.

PREREQUISITES

There is one mandatory condition to enrol in this training course is to have either a valid CCNA Wireless certification or a CCIE certification prior to it.

TARGET AUDIENCE

The target audience for this course is all the network professionals who want to learn the skills and knowledge to become proficient at maintaining networks efficiently.

WHAT WILL YOU LEARN?

  • Get familiar with the use of Flex Connect, Independent or Cloud designs so that it would be an easy task to execute small as well as big remote access wireless networks
  • Delegate will also get to learn maintenance and checking of WLAN
  • Delegate will be clear regarding the requirements for designing a Wireless Local Area Network i.e WLAN
  • Delegate will be proficient at Knowing how to perform a combined WAN using IOS-XE converged entrance switches and wireless LAN controllers
  • Opportunity to Learn the basic points of RF
  • Opportunity to Learn WLAN security procedures to gain access to differing client plans
  • Clear thought in the Cisco WLAN architecture and the concealed infrastructure used to support it
  • Execute a Centralised WAN using AireOS or IOS-XE wireless LAN controllers
  • Decide the necessary reserves and execute VLAN based solution
  • Managing security of the WLAN using integrated security features of network controller
  • Design infrastructure devices for implementing a voice-over-WLAN
  • Prepare the wireless LAN for high-bandwidth applications and video support
  • Integrate WLAN controller with high-security stages of a wired network
  • Design and configure Switch based Layer 3 services
  • Implement an eBGP based solution and arrange BGP routeing
  • Setup an IPv6 based solution and document execution results
  • Execute and arrange an IPv4 or IPv6 redistribution solution
  • Do check of Multi-Protocol systems, such as EIGRP, NAT and OSPF
  • Execute and arrange an EIGRP based solution
  • Create a multi-area OSPF Network and arrange OSPF routing
  • Knowledge of Location-based Services & Mobility Services Engine

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PROGRAM OVERVIEW

The purpose of Cisco Network Professional Wireless training course is to make the delegate proficient at design, execution and securing Wireless Networks and also work associated to the web. The course gives due importance to both the theories and principles of the wireless networks. After successful completion of the course candidate will have that much confidence to manage works such as setting and maintaining the wireless network set-up.


PROGRAM CONTENT

  • Outline and design voice ended wireless architecture
    • Outline wireless for voice
    • Use of other design considerations, as per the principles of View Design Guide (VAD, MoH, Load balancing, and so on)
    • Define voice in relation to the wireless network
    • Validate infrastructure requirements for end-to-end voice over wireless (CUCM, CUCME, QoS, ACS, DHCP, TFTP, routers, security devices, etc.)
    • Outline 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
    • Define the Wireless QoS deployment schemes and learn to implement them
    • 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
  • Execute 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
  • Propose and integrate 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
  • Develop and Execute 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
  • Execute 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

 

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ABOUT York

York is a walled city in the northeast England with a population of around 153,717 according to 2011 census. It lies at the concurrence of the Foss and Ouse rivers in North Yorkshire, non-metropolitan and Ceremonial County in England. The town is considered as the county town of the historic Yorkshire County. The town served a base for two major political events in England. The town became a famous tourist destination for millions of tourists for its unique and rich heritage, notable historical attractions and also offer a range of cultural and sporting activities. The Romans founded the city in 71 AD and became the largest town and a provincial capital in Britain. The town developed as a major trading centre of wool in the Medieval Period and. By the middle ages, it became the capital of the northern ecclesiastical of the Church of England, also termed as the international Anglican Communion’s mother church.

The economy of the town was primarily based on confectionery manufacturing centre and railway-related industries. The town became a centre of the railway network in the 19th century. The focus of the economy shifted to the service sector in recent decades. The major employers of the city are health services and the University of York, and the local economy of the city is largely dependent on the tourism sector. The ‘city of York’ term represented the unitary authority area and covered the rural areas beyond the boundaries of the old city.

History

The oldest inhabited settlement of the town recorded between 8000 and 7000 BC was Mesolithic. The site was occupied by the tribe of Romans, known as Brigantes during the Roman conquest of Britain and the tribal area became a Roman client state. The origin of the city established in 71 AD when the Ninth Legion built a wooden military fortress on flat ground at the concurrence of the River Ouse and Foss. The fortress was occupied by the 6000 legionary soldiers and spread on an area of 50 acres land. The population of the town reduced in the post-Roman era due to occasional flooding from the Foss and Ouse rivers. York became the chief city of King Edwin of Northumbria in the 7th century. The first wooden minster church was built, and restoration of the other parts of the town took place in 627.

The town experienced revolutionary phase after the two years of Norman Conquest of England. William the Conqueror, the first Norman King of England, stopped the rebellion and built a wooden fortress and timbered castle across the Ouse River. Later on, these were demolished in 1069 and remains are visible on the banks of the Ouse River. Due to its strategic location and its closeness to the Great North Road, the town became a significant trading and cloth manufacturing centre. The first charter was granted in 1212, provided trading rights in England and Europe. The economy of the city declined in the Tudor times and many monastic houses, hospitals and institutions were closed under the Dissolution of the Monasteries. The city became a service centre in this period.    

The railways arrived in the city in 1839, and it became a major railway centre by the end of 9th century. George Hudson, railway promoter was responsible for introducing the railway in the city. The engineering industry flourished with the arrival of railways in the city. The city is home to the North Eastern Railway and provided job to more than 5500 people. The two major industries emerged in 1900 are railways and confectionery. The National Railway Museum was built in the city in 1975 and brought prosperity to the city with the emergence of the tourism industry. The historic core of the city was marked as a conservation area in 1968.