space
Search Courses  in 

Get COURSE FEES & Discounts from BEST CCNP Wireless Institutes in Velachery!

 

My Name

My Mobile Number

My Email ID

 

CCNP Wireless Training Centers, Institutes & Training Course Classes in Velachery- Listings as of June 18, 2018.

As on June 18, 2018, We have total of 13 CCNP Wireless training institutes in and around also near to Velachery area in Chennai with best training centers, institute address, Phone numbers, course fee, working hours and student reviews listed.

 

 

training institutes Junisys Techno Services
Chennai - Velachery
Best training institute

 

Junisys Techno Services at Velachery - lab facility photo_2571 Junisys Techno Services at Velachery - student counseling room photo_6851 Junisys Techno Services at Velachery - students speak photo_6857 
Address: No.5, 2nd Floor, Velachery-Tharamani link road, Sitapathi Nagar Velachery, Chennai-600042 google map of 12422

Junisys Techno Services private Limited, is a professional body that delivers complete solutions and services for all kind of Technical Support. Junisys Techno Services provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
training institutes RootOps Technologies
Chennai - Velachery
Best training institute
Address: Plot no 5, Door No 31, Dr. Seethapathy nagar Ext., 3rd cross street, Velachery, Chennai-600042

We at RootOps Technologies in Chennai offer the finest software training and placement assistance in evergreen technologies. RootOps Technologies provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
 
training institutes AllTechz Solutions Pvt Ltd
Chennai - Velachery
Best Institute
Address: No. 28/29, 2nd Floor, Railway Station Services Road, Anni Indra Nagar, Velachery Chennai-600042 google map of 9796

AllTechZ Solutions Pvt Ltd is an ISO 9001 : 2008 Certified, fast growing Chennai based Software consulting company providing the IT Services to all the major clients on all competitive technologies. AllTechz Solutions Pvt Ltd provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
training institutes HB Services
Chennai - Adyar
Best Institute
Address: 39/40,1st Main Road, Gandhi Nagar, Adyar, Chennai-600020 google map of 5640

HB Educational Services located in Chennai offering diverse IT Education Courses, Corporate Training Programs and Distance Education Programs. Since its inception from 2010. HB Services provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Adyar.
 
training institutes Shinetek Solutions
Chennai - T. Nagar
No Reviews. Write a Review
training institute
Address: #40,South West Boag Road,T. Nagar Chennai-600017

Shinetek Solutions provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training T. Nagar.
 
training institutes winfotech IT Training & services
Chennai - Velachery
training institute
Address: NO D-13, Parmount park,Vijaya nagara Bus stop,Vijaya nagar, Velachery, Chennai-42

winfotech IT Training & services provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
training institutes CF Infotech
Chennai - Velachery
training institute
Address: 25A, First Floor, Velachery Main Road, Velachery Chennai-600042 google map of 7023

CF Infotech provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
training institutes Shinelogics Infotech
Chennai - Velachery
training institute
Address: 1A SAI ADITYA Building, Taramani Link road, Velachery, Chennai-600042 google map of 6302

Shinelogics Infotech provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
training institutes Ayser Info Services
Chennai - Velachery
training institute
Address: 1A, Sai Aadithyaa Building, Taramani Link Road, Velachery - 600042 google map of 5788

Ayser Info Services provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Velachery.
 
 
training institutes EduRiver Technologies
Chennai - Alandur
training institute
Address: No 7C, Second Floor, Mandy Street,Alandur, Chennai-600088 google map of 5988

EduRiver Technologies provides best CCNP Wireless Training, CCNP Wireless Training classes & Realtime Training Alandur.
 
First << 1  >> Last

 

 

 

Related Training Courses for CCNP Wireless in velachery

 

 

CCNP Wireless Placement training, Course fees, Trainer Profile in velachery

Junisys Techno Services institute located at velachery in chennai offers 45 Day(s) of CCNP Wireless training course in Chennai with 100% Placement Assistance.

Mr.Gopi Venkatesan, a veteran in Networking Technology, brings 14 years of experience in Information security, consulting, auditing and provides information technology; security reviews, audits and co

There are 4 papers.

Conducting Cisco Unified Wireless Site Survey (642-732)
Exam Description: The Conducting Cisco Unified Wireless Site Survey (CUWSS) version 2.0 642-732 exam is a 75-minute test with 45−65 questions that are associated with the Cisco CCNP� Wireless certification. This exam assesses a candidate s ability to plan and conduct a wireless site survey, design the RF network, and conduct a post installation assessment to ensure compliance. The exam is closed book and no outside reference materials are allowed.
The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.
16% 1.0 Prepare for the Site Survey
1.1 Identify customer requirements
1.1.a Business and RF application needs (voice, data, location)
1.1.b Industry vertical
1.1.c Customer questionnaire
1.2 Identify customer facility requirements
1.2.a Single floor
1.2.b Multi floor
1.2.c Campus (indoor and outdoor)
1.2.d Warehouse
1.2.e Obtain digital floor plans from customer
1.3 Identify customer requirements for type of client devices
1.4 Identify regulatory issues
1.4.a Country codes (-e, -i, -a, -n)
1.5 Identify safety and aesthetic considerations
1.5.a NEC ratings
1.5.b Fire codes
1.5.c OSHA
1.5.d MSHA
1.5.e Site-specific hazard awareness
1.6 Assess existing network infrastructure
1.7 Assess logistical considerations
1.7.a Resources
1.7.b Time
1.7.c Access
1.7.d Deployment requirements
1.8 Determine IEEE 802.11n impact on network infrastructure
16% 2.0 Plan for the Site Survey
2.1 Select proper survey model
2.1.a Data
2.1.b Voice
2.1.c Video
2.1.d Location
2.1.e Bridging (point-to-point; point-to-multipoint)
2.1.f Hybrid
2.2 Determine proper deployment characteristics
2.2.a Dense deployment
2.2.b Highly mobile (many cells, high reliability, and fast-moving clients) versus nomadic (temporary position)
2.2.c Indoor and outdoor mesh
2.2.d Use predictive Cisco WCS planning tools
2.3 Select survey equipment
2.4 Determine site survey best practices for customer environment
2.5 Identify impact of material attenuation
2.6 Identify survey documentation needed for customer report
30% 3.0 Conduct the Site Survey
3.1 Conduct a layer 1 survey (Cisco Spectrum Expert)
3.2 Select proper antenna to conduct the site survey
3.3 Conduct the layer 2 site survey for indoor environment
3.3.a Select proper access point to conduct the site survey (use what is purchased)
3.3.b Configure access point
3.3.c Survey with proper client
3.3.d Utilize proper survey techniques
3.4 Conduct the layer 2 site survey for outdoor point-to-point and point-to-multipoint networks
3.5 Conduct the layer 2 site survey for outdoor mesh network
12% 4.0 Design the RF Network
4.1 Determine infrastructure requirements
4.1.a AC power and PoE
4.1.b Understand cable plant considerations
4.1.c Mounting considerations: NEMA
4.1.d Outdoor grounding and lightning protection
4.1.e Rack capacity
4.1.f Switch port capacity
4.2 Determine the AP count and subsequent controller and license requirements
4.2.a Autonomous versus controller-based deployment
4.3 Generate the WLAN design documentation
4.3.a Indoor
4.3.b Outdoor mesh
4.3.c Outdoor point-to-point and multipoint
26% 5.0 Conduct Post-Deployment Assessment
5.1 Verify RF coverage
5.1.a Utilize tools (for example, air magnet) for audit
5.1.b RRM, controller, network appliance tweaks
5.2 Verify network applications and performance
5.2.a Apply WCS tools (voice readiness, location readiness, site calibration)
5.3 Reconcile any deployment issues
5.4 Assemble and deliver installation report to customer
Implementing Advanced Cisco Unified Wireless Security (642-737)
Exam Description: The Implementing Advanced Cisco Unified Wireless Security (IAUWS) version 2.0 642-737 exam is a 90-minute test with 55−75 questions that are associated with the Cisco CCNP� Wireless certification. This exam assesses a candidate s ability to secure the wireless network from security threats via appropriate security policies and best practices, properly implement security standards, and properly configure wireless security components. The exam is closed book and no outside reference materials are allowed.
The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.
22% 1.0 Integrate Client Device Security
1.1 Describe the EAP authentication process
1.2 Configure client for secure EAP authentication
1.3 Configure the Cisco any connect client
1.4 Describe the impact of security configurations on application and client roaming
1.5 Troubleshoot client wireless authentication issues
1.5.a Packet analyzers
1.5.b Debugs
1.5.c Logs
1.5.d Cisco WCS
1.5.e ACS
1.6 Identify client security risks
1.6.a Driver update
1.6.b MS hot fixes
11% 2.0 Design and Integrate Wireless Network with NAC
2.1 Describe the architectures
2.1.a In-band
2.1.b Out-of-band
2.1.c Agent versus agentless
2.1.d Cisco NAC appliance
2.2 Describe the high-level authentication process flow
2.2.a CAS
2.2.b CAM
2.2.c RADIUS/ACS
2.2.d WLC
2.2.e External authentication sources
2.3 Configure the WLC for the NAC
2.4 Verify wireless authentication with NAC
22% 3.0 Implement Secure Wireless Connectivity Services
3.1 Configure authentication
3.1.a Controller local EAP with or without external
3.1.b LDAP database
3.1.c Client authentication on H-REAP APs
3.1.d 802.1X authentication for AP authentication to the switch
3.2 Configure autonomous AP for RADIUS authentication
3.3 Configure management frame protection on clients, APs, and controllers
3.4 Configure IBN
3.4.a RADIUS-based VLAN and ACLs
3.4.b AAA override
3.5 Define ACS parameters for integration with wireless network
3.6 Define client and server-side digital certificate requirements
3.7 Implement ACLs on controller
3.7.a CPU ACLs
3.7.b WLAN, interface, and client identity ACL
3.8 Troubleshoot secure wireless connectivity services
3.8.a Packet analyzers, debugs, logs, WCS, and ACS
3.8.b Verify firewall ports
3.8.c ACS and controller authorization and authentication for clients
12% 4.0 Design and Implement Guest Access Services
4.1 Describe the architectures for guest access services
4.1.a VLAN-based
4.1.b Anchor, DMZ, redundancy, and scaling
4.1.c NAC guest server
4.1.d Wired guest access
4.1.e Bandwidth limiting
4.2 Configure guest access accounts
4.2.a Lobby ambassador (controller and WCS-based)
4.2.b Guest roles
4.3 Configure controller web authentication
4.3.a Pass-through
4.3.b Internal and external
4.3.c Authentication (local/RADIUS)
4.3.d Custom splash page (internal, external, and per WLAN)
4.3.e Understand design considerations (DNS, proxy)
4.3.f Pre-authentication ACL
4.3.g Wired guest access
4.3.h Install third-party certificate on controller
4.4 Configure the anchor and internal controllers
4.5 Troubleshoot guest access issues
4.5.a Packet analyzers, debugs, logs, WCS, and ACS
4.5.b Verify firewall ports
4.5.c Mping and eping
4.5.d Proxies
11% 5.0 Translate Organizational and Regulatory Security Policies and Enforce Security
Compliance
5.1 Describe regulatory compliance considerations
5.1.a HIPAA
5.1.b PCI
5.1.c SOX
5.1.d FERPA
5.2 Segment traffic into different VLANs, based upon these functions:
5.2.a Security
5.2.b Application
5.2.c QoS
5.3 Configure administration security on controller and WCS
5.3.a TACACS+ and ACS integration
5.3.b Local
5.3.c RADIUS and AAA server integration
5.3.d Access point administration credential
5.3.e Admin roles
5.4 Manage WLC and WCS alarms
5.4.a SNMP and trap receivers
5.4.b Syslog
5.4.c SMTP
5.4.d ACS log
5.4 e Modify WCS alarm levels
5.5 Utilize security audit tools
5.5.a Packet captures
5.5.b Penetration testing
5.5.c Third-party software (air magnet, air wise)
5.5.d PCI audit tool in WCS
11% 6.0 Configure Native WLC Security Feature Sets: IPS/IDS
6.1 Utilize WCS or controller for IDS and threat mitigation strategies
6.1.a Signature
6.1.b Custom signature
6.1.c Rogue classification management and (auto) containment
6.1.d Rogue reporting and location (WCS only)
6.1.e Switch port tracing (WCS only)
6.1.f Integrate Cisco spectrum expert with WCS
6.1.g Client exclusion
6.1.h Clean air
6.2 Identify and mitigate wireless vulnerabilities
6.2.a Wireless packet injection (can t be mitigated)
6.2.b Client misconfiguration
6.2.c DoS (RF jamming)
6.2.d Anomalous behavior attacks (association and authentication attacks)
6.2.e Signature attacks (net stumbler and undetectable at this time)
6.2.f Eavesdropping (wild packets and honeypot)
6.2.g Hijacking and mimicry (evil twin and honey potting)
6.2.h Social engineering (human attack)
11% 7.0 Integrate Wireless Network with Advanced Security Platforms
7.1 Describe Cisco end-to-end security solutions and how they integrate with Cisco wireless solutions
7.1.a any connect 3.0 and above
7.1.b NAC appliance
7.1.c NAC guest server
7.1.d Wired IPS
7.1.e ACS
7.2 Describe the Cisco unified wireless network firewall port configuration requirements
7.2.a ACLs
7.2.b IP port pass-through
7.2.c DMZ
7.3 Configure the controller for wired IPS and IDS
7.4 Configure wireless intrusion prevention system (MSE)

Implementing Cisco Unified Wireless Voice Networks (642-742)
Exam Description: The Implementing Cisco Unified Wireless Voice Networks (IUWVN) version 2.0 642-742 exam is a 90-minute test with 55−75 questions associated with the Cisco CCNP� Wireless certification. This exam assesses a candidate s ability to integrate VoWLAN services into the WLAN and be able to implement QoS, MPLS, and high-bandwidth applications in the wireless network. The exam is closed book and no outside reference materials are allowed.
The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.
27% 1.0 Describe and Design Voice Over Wireless Architecture
1.1 Describe voice as it applies to the wireless network
1.1.a Components (hardware and software)
1.1.b Call setup/data flow overview
1.1.c Other wireless voice and video services
1.1.d Standards (.11r, .11e, .11n, and so on)
1.1.e Cisco Compatible Extensions (voice features)
1.1.f WMM
1.1.g UAPSD
1.1.h Codecs
1.1.i Signaling Connection Control Part (SCCP)
1.1.j SIP
1.2 Design wireless for voice
1.2.a Minimum speed requirements�RSSI and SNR
1.2.b Overlap requirements
1.2.c Cell separations
1.2.d Traffic separation, QoS, voice VLAN
1.2.e Delay and jitter reqs
1.2.f Testing tools (AirMagnet and Veriwave)
1.2.g CAC and TSPEC
1.2.h Spectrum
1.2.i 802.11n
1.2.j Wireless voice client requirements
1.3 Utilize other design considerations, as per the voice design guide
1.3.a VAD
1.3.b MOH
1.3.c Load balancing
1.4 Validate wireless network design for voice readiness
1.4.a Utilize the WCS voice readiness tool
1.4.b Validate site survey for voice
1.5 Validate infrastructure requirements for end-to-end voice over wireless
1.5.a Cisco Unified Communications Manager
1.5.b Cisco Unified Communications Manager Express
1.5.c QoS
1.5.d ACS
1.5.e DHCP
1.5.f TFTP
1.5.g Routers
1.5.h Security devices
1.6 Describe VoWLAN integration with cellular providers
23% 2.0 Implement VoWLAN
2.1 Configure wireless client devices
2.1.a Reference current best practice guidelines
2.1.b Device security considerations
2.2 Configure the WLAN for VoWLAN
2.2.a Implement current best practice guidelines
2.2.b Security configurations (PEAP, EAP-TLS, EAP-FAST)
2.2.c CCKM/PKC, 802.11r
2.3 Troubleshoot VoWLAN implementation
2.3.a Spectrum Expert
2.3.b AirMagnet VoFi analyzer
2.3.c Traffic stream metrics (TSM)
2.3.d Incremental complexity testing
20% 3.0 Implement QoS for Wireless Applications
3.1 Describe and implement general considerations for wired QoS
3.1.a Configurations
3.1.b DSCP/802.1p
3.1.c Voice VLAN
3.2 Describe and implement the appropriate wireless QoS deployment schemes
3.2.a WMM
3.2.b 802.11e
3.2.c Mapping�wired to wireless (five and six mismatching)
3.3 Configure WCS/WLC for QoS
3.3.a CAC
3.3.b TSPEC
3.3.c QBSS
3.3.d Queues
3.3.e Bandwidth reservation
3.3.f Disable "DHCP Required"
3.3.g Disable Address Resolution Protocol (ARP) unicast
3.3.h Enable ARP caching
3.3.i Cisco Identity Based Networking (IBN) services
3.4 Reference most current best practice guidelines
17% 4.0 Implement multicast over wireless
4.1 Describe general multicast concepts
4.1.a PIM (sparse and dense)
4.1.b Cisco Group Management Protocol
4.1.c IGMP snooping
4.1.d RP
4.2 Describe implications for multicast in 802.11
4.2.a Highest mandatory data rate
4.2.b Unicast and multicast modes
4.2.c Roaming
4.2.d Mesh
4.2.e Controllers having same CAPWAP multicast group
4.2.f Video stream (reliable multicast)
4.3 Configure multicast in a wireless network
4.3.a Infrastructure multicast group
4.3.b IGMP snooping on the controller
4.3.c Video stream (reliable multicast)
4.3.d Mobility group multicast
4.4 Troubleshoot multicast in a wireless network
4.4.a Packet captures
4.4.b Show IPM route
4.4.c Controller logs
4.4.d Debugs
4.4.d (i) debug bcast igmp enable command
4.4.d (ii) debug mobility multicast enable command
13% 5.0 Prepare the Wireless Network for Video and High-Bandwidth Applications
5.1 Describe benefits of 802.11n for video
5.2 Determine bandwidth requirements for specified applications
5.3 Identify application-specific wireless network requirements
5.3.a WLC to wired network
5.3.b Multicast for wireless video
5.3.c Wireless security cameras
5.3.d Real-time video streaming and video conferencing
Implementing Cisco Unified Wireless Mobility Services (642-747)
Exam Description: The Implementing Cisco Unified Wireless Mobility Services (IUWMS) version 2.0 exam is a 90-minute test with 55−75 questions that are associated with the Cisco CCNP� Wireless certification. This exam assesses a candidate s ability to integrate mobility services into the WLAN, tune and troubleshoot the WLAN, and implement indoor enterprise mesh networks. The exam is closed book and no outside reference materials are allowed.
The following topics are general guidelines for the content likely to be included on the exam. However, other related topics may also appear on any specific delivery of the exam. In order to better reflect the contents of the exam and for clarity purposes, the guidelines below may change at any time without notice.
20% 1.0 Implement Location-Based Services
1.1 Describe the impact of distributed antenna systems (DAS) for location-based services
1.2 Tracking mobile clients
1.2.a Active RFID tag
1.2.b Wi-Fi devices
1.2.c Active interferers
1.3 Describe the applications of RFID, chokepoint, and TDoA tags
1.3.a Compare and contrast Cisco WCS and third-party applications
1.4 Calibrate RSSI for the Cisco and third-party implementation
1.5 Configure, generate, and interpret location and event notifications
1.6 Configure and tune the mobility services engine (SNMP impact on network traffic and platform hardware)
1.6.a NMSP
1.7 Design AP and antenna deployment model for location
1.8 Describe location techniques
1.8.a Angulations
1.8.b Cell of origin
1.8.c TDoA and ToA lateration
1.8.d RSS lateration
1.8.e Pattern recognition
1.8.f RF fingerprinting
23% 2.0 Design and Deploy WLAN Infrastructure for Mobility
2.1 Configure single SSID designs with mobility
2.1.a AP group VLANs
2.1.b Identity based networking (IBN)
2.1.c Single SSID and multiple WLAN
2.2 Analyze implications of layer 2 and layer 3 roaming
2.2.a Avoid salt and pepper deployment
2.2.b Minimize inter controller roaming
2.2.c Mobility tunneling
2.3 Implement high availability
2.3.a Legacy primary, secondary, and tertiary
2.3.b Backup primary and backup secondary outside of mobility group
2.3.c Enhanced timers
2.3.d AP fallback
2.3.e AP prioritization
2.3.f Anchor controller redundancy
2.3.g RF redundancy: coverage hole, RRM, and double AP
2.4 Troubleshoot AP join process using the following solutions
2.4.a AP console debug
2.4.b AP console configuration
2.4.c WLC debug
2.4.d WLC logs
2.4.e Switch port, DHCP, and VLAN
2.5 Implement the following Cisco unified wireless best practices
2.5.a LAG versus port-based
2.5.b RF groups
2.5.c H-REAP
2.5.d AP count; per-subnet limitation
2.5.e Client subnet sizing considerations
2.5.f Per WLAN client limit
2.5.g Office extend
2.5.h Passive client
2.6 Define and implement mobility groups and mobility lists
2.6.a AP regulatory domain flexibility
2.6.b 24/48/72 WLC mobility size
2.7 Adjust authentication and EAP timers
2.8 Tune RF environment for context-aware services
2.8.a Data rates
2.8.b Transmit power levels and thresholds
2.8.c Channels and DCA
2.8.d Band select
2.8.e Cisco Client link
2.9 Troubleshooting inter controller communications
2.9.a Mobility group formation
2.9.b RF group formation
2.9.c Inter controller roaming
22% 3.0 Implement Cisco MSE Architecture
3.1 Describe Cisco MSE capabilities and integration with wireless network architecture
3.1.a Context aware
3.1.b Adaptive wireless IPS
3.1.c Guest tracking
3.1.d Spectrum intelligence
3.1.e Scalability
3.2 Deploy context-aware services for specific environments
3.2.a Mixed-use environments
3.2.b Complex RF environments
3.2.c Small areas
3.2.d Timing issues
3.2.e Adjusting history and location parameters
3.2.f Multi floor facilities
3.2.g Recalibration
3.3 Integrate third-party applications
3.3.a Server engines
3.3.b Licensing
3.3.c Common API
3.4 Integrate and manage MSE with Cisco WCS
3.4.a Install and synchronize
3.4.b Location
3.4.c Enable tracking
3.4.d Define the MSE parameters
3.4.e Understand advanced parameters
3.5 Maintain MSE
3.5.a Database clean up
3.5.b Database back-up and restore
3.5.c Upgrade
3.6 Troubleshoot MSE operations
3.6.a Debug of NMSP
3.6.b Debug of controller
3.6.c Location accuracy tool
3.6.d Debug RFID
17% 4.0 Implement and Manage Indoor and Outdoor Mesh
4.1 Describe wireless mesh and its benefits
4.2 Describe the following mesh operation modes
4.2.a RAP
4.2.b MAP
4.2.c Ethernet bridge functionality for mesh
4.3 Implement mesh
4.3.a Hop count
4.3.b Backhaul caveats (throughput rates, QoS, path properties)
4.3.c Secondary backhaul
4.3.d AP authorization (MAC filter entry)
4.3.e Utilize WLC CLI
4.3.f Outdoor RF considerations
4.4 Describe mesh convergence
4.4.a Cisco AWPP
4.4.b Bridge group names
4.4.c Parent selection
4.4.d Understand re-convergence
4.5 Utilize Cisco WCS for mesh monitoring
4.5.a Add mesh APs to map
4.5.b Utilize mesh tree view
4.5.c Utilize Cisco WCS mesh tools
4.5.d Generate mesh reports
4.6 Utilize workgroup bridges
4.6.a Cisco WCS management for workgroup bridges
4.6.b Differences between workgroup and universal bridges
4.6.c Considerations for using workgroup bridges
18% 5.0 Implement Advanced Services and Manage with Cisco WCS and Navigator
5.1 Install and maintain Cisco WCS and navigator and perform the following tasks:
5.1.a Add Cisco WCS
5.1.b Add controllers
5.1.c Adding APs
5.1.d Adding maps
5.2 Describe Navigator s role, features, and functions
5.3 Implement Cisco WCS partitioning and Navigator domains
5.4 Implement time-of-day AP power savings
5.5 Implement scheduled WLAN availability
5.6 Create and customize Cisco WCS reports
5.7 Configure background tasks
5.8 Configure and apply controller and access point templates
5.9 Monitor and convert autonomous APs
5.10 Configure WLC auto provisioning
5.11 Utilize configuration auditing in Cisco WCS

CCNP Wireless course Content / syllabus at velachery, chennai.

We gathered most widely used CCNP Wireless course content used by training institutes in velachery,chennai. The CCNP Wireless course syllabus covers basic to advanced level and it may vary based on CCNP Wireless training classes offered in velachery.

 

I. Conducting Cisco Unified Wireless Site Survey

A. Prepare for the Site Survey
1.Identify customer requirements, such as:
2.Business and RF application needs (voice, data, location, and so on)
3.Industry vertical
4.Customer questionnaire
5.Identify customer facility requirements
6.Identify customer requirements for type of client devices
7.Identify regulatory issues
8.Identify safety and aesthetic considerations
9.Assess existing network infrastructure
10.Assess logistical considerations (resources, time, access, deployment requirements, and so on)
11.Determine 802.11n impact on network infrastructure

B. Plan for the Site Survey
1.Select proper survey mode
2.Determine proper deployment characteristics
3.Select survey equipment
4.Determine site survey best practices for customer environment
5.Identify impact of material attenuation
6.Identify survey documentation needed for customer report

C. Conduct the Site Survey
1.Conduct a Layer 1 survey (Cisco Spectrum Expert)
2.Select proper antenna to conduct the site survey
3.Conduct the Layer 2 site survey for indoor environment
4.Conduct the Layer 2 site survey for outdoor point-to-point and point-to-multipoint networks
5.Conduct the Layer 2 site survey for outdoor mesh network

D. Design the RF Network
1.Determine infrastructure requirements
2.Determine the AP count and subsequent controller and license requirements
3.Generate the WLAN design documentation

E. Conduct Post Deployment Assessment
1.Verify RF coverage
2.Verify network applications and performance
3.Reconcile any deployment issues
4.Assemble and deliver installation report to customer

II. Implementing Cisco Unified Wireless Voice Networks

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

B. Implement VoWLAN
1.Configure wireless client devices
2.Configure the WLAN for VoWLAN
3.Troubleshoot VoWLAN implementation

C. Implement QoS for wireless applications
1.Describe and implement general considerations for wired QoS
2.Describe and implement the appropriate Wireless QoS deployment schemes
3.Configure WCS/WLC for QoS
4.Reference most current best practice guidelines

D. Implement multicast over wireless
1.Describe general multicast concepts
2.Describe implications for multicast in 802.11
3.Configure multicast in a wireless network
4.Troubleshoot multicast in a wireless network

E. Prepare the wireless network for video/high-bandwidth applications
1.Describe benefits of 802.11n for video
2.Determine bandwidth requirements for specified applications
3.Identify application specific wireless network requirements

III. Implementing Cisco Unified Wireless Mobility Services

A. Implement Location Based Services
1.Describe the impact of direct-attached storage (DAS) for location-based services
2.Tracking mobile clients, including active radio frequency identification (RFID) tag, Wi-Fi devices, and active interferers
3.Describe the applications of RFID, Chokepoint, and TDoA Tags, including compare and contrast Cisco Wireless Control System (Cisco WCS) and third-party applications
4.Calibrate Received Signal Strength Indicator (RSSI) for the Cisco and third-party implementation
5.Configure, generate, and interpret location and event notifications
6.Configure and tune the Mobility Services Engine (for example, Simple Network Management Protocol (SNMP) impact on network traffic and platform hardware)
7.Design access point (AP)/antenna deployment model for location
8.Describe location techniques

B. Design and deploy WLAN infrastructure for mobility
1.Configure single Service Set Identifier (SSID) designs w/mobility
2.Analyze implications of L2 and L3 roaming
3.Implement high availability
4.Troubleshoot AP join process using the following solutions
5.Implement the following Cisco Unified Wireless best practices
6.Define and implement mobility groups/list
7.Adjust authentication/EAP timers
8.Tune RF environment for context aware services
9.Troubleshooting intercontroller communications

C. Implement MSE architecture
1.Describe Cisco Mobility Services Engine (MSE) capabilities and integration with wireless network architecture
2.Deploy context-aware services for specific environments
3.Integrate third-party applications
4.Integrate and manage MSE with Cisco WCS
5.Maintain MSE
6.Troubleshoot MSE operations

D. Implement and manage indoor and outdoor Mesh
1.Describe wireless Mesh and its benefits
2.Describe the following Mesh operation modes:
3.Implement Mesh
4.Describe Mesh convergence
5.Utilize Cisco WCS for Mesh monitoring
6.Utilize workgroup bridges

E. Implement advanced services and manage with Cisco WCS and Navigator
1.Install and maintain Cisco WCS/Navigator and perform the following tasks
2.Describe Navigators role, features, and functions
3.Implement Cisco WCS partitioning and Navigator domains
4.Implement time of day AP power savings
5.Implement scheduled WLAN availability
6.Create and customize Cisco WCS reports
7.Configure background tasks
8.Configure and apply controller and access point templates
9.Monitor and convert autonomous APs
10.Configure WLC auto-provisioning
11.Utilize configuration auditing in Cisco WCS

IV. Implementing Advanced Cisco Unified Wireless Security

A. Integrate client device security
1.Describe Extensible Authentication Protocol (EAP) authentication process
2.Configure client for secure EAP authentication
3.Configure the AnyConnect client
4.Describe the impact of security configurations on application and client roaming.
5.Troubleshoot client wireless authentication issues, such as packet analyzers, debugs, logs, Cisco Wireless Control System (WCS), and access control server (ACS)
6.Identify client security risks (driver update, MS hot fixes)

B. Design and integrate wireless network with NAC
1.Describe the architectures; inband, out-of-band, agent vs. agentless, and the Cisco Network Admission Control (NAC) appliance.
2.Describe the high-level authentication process flow
3.Configure the WLC for Network Access Controller (NAC)
4.Verify wireless authentication with NAC

C. Implement secure wireless connectivity services
1.Configure authentication
2.Configure autonomous AP for RADIUS authentication
3.Configure management frame protection on clients, APs and controllers
4.Configure IBN (RADIUS based VLAN and ACLs, AAA override)
5.Define ACS parameters for integration with wireless network
6.Define client and server-side digital certificate requirements
7.Implement ACLs on controller
8.Troubleshoot secure wireless connectivity services

D. Design and implement Guest Access services
1.Describe the architectures for guest access services
2.Configure guest access accounts
3.Configure controller web authentication
4.Configure the anchor and internal controllers
5.Troubleshoot guest access issues

E. Translate organizational and regulatory security policies and enforce security compliances
1.Describe regulatory compliance considerations, such as HIPAA, PCI, SOX, and FERPA
2.Segment traffic into different VLANs, based upon
3.Configure administration security on controller and WCS
4.Manage WLC and WCS alarms
5.Utilize security audit tools

F. Configure native WLC security feature sets - IPS/IDS
1.Utilize WCS or controller for IDS and threat mitigation strategies
2.Identify and mitigate wireless vulnerabilities

G. Integrate wireless network with advanced security platforms
1.Describe end-to-end security solutions of Cisco and how they integrate with the Cisco wireless solutions
2.Describe the CUWN firewall port configuration requirements
3.Configure the controller for wired IPS/IDS
4.Configure wireless Intrusion Prevention System (IPS) (MSE)

 

 

laureola solutions Chennai

 

Peridot Systems Chennai

 

Prolific Training India Plc Training

 

Talhunt TTA Training center insitute in Chennai

 

Core Mind Technologies Chennai Chennai

 

CADD School Vadapalani

 

Besant technologies chennaiThink up computer institute chennai

 

IICT Chrompet - SAP Training in ChennaiSatori Technologies Chennai

 

vgit kilpaukHB Services Adyar Training Institute

 

Credo Systemz VelacheryiSpark institute, Chennai

 

sap training institutes in chennaiITBMS chennai Best Training Institute

 

7 Eleven Arthashastra Chennai

 

IIHT Vadapalani Chennai

 

HITS computer Education chennai

 

HCL Learning Velachery Chennai

 

Training course fee & Discounts

 

 

   DMCA.com Protection Status