CCNP Wireless

CCNP Wireless Overview

Octa Networks is Mumbai most trusted training Centre for CCNP Wireless Course. We offer high-end training to candidates in our 24×7 on Cisco real devices. Our Training Centre is situated in Mumbai. Octa Networks is considered as one of the innovative, reliable and prestigious CCNP Wireless Training Institute in Mumbai. We also provide Corporate and Summer Training in Mumbai.

CCNP Wireless certification addresses the need for designing, implementing, and securing Cisco Wireless networks for optimal performance. It emphasizes wireless networking principles and theory.
Achieving the Cisco CCNP Wireless certification confirms the expertise and technical acumen of wireless professionals who can assess and translate network business requirements into technical specifications that in turn, result in successful business outcomes.
CCNP Wireless training & certification is divided in four categories:

In this course, you will learn how to design a Cisco wireless network from initial customer contact to post-deployment activities. In addition, you will learn to use the appropriate tools to assist in wireless design and management

In this course, you will learn how to deploy wireless networks using Cisco controller and unified switching architectures policies and best practices, as well as ensure the proper implementation of mobility standards and proper configuration of all aspects of wireless components.

In this course, you will learn how to troubleshoot Cisco wireless networks. In addition, you will learn about the guidelines for troubleshooting Wi-Fi architectures of Cisco wireless components

In this course, you will learn how to secure Cisco wireless networks. The course provides guidelines for implementing Wi-Fi security architectures through proper configuration of Cisco wireless components.

Key Features of CCNP Wireless Training:

  • Candidates are provided guaranteed training on Cisco Physical Devices.
  • CCNP Wireless Concepts are explained theoretically and practically on the Cisco Physical Devices.
  • Students have 24*7 access to the Lab.
  • 160+ hours of training in classroom with interactive whiteboard and projector.
  • Candidates can appear for the repeat classes unlimited times.
  • Classrooms are equipped with projectors, Wi-Fi connectivity, and Digital Pads.
  • Batches are available from early morning to late night.
  • Trainers/Mentors 24×7 availability.
  • Our Trainers are Cisco certified and highly experienced.

Devices to be used during the Training Program:

  • Hardware:
    • Cisco Integrated Services Router
    • Catalyst Switch
    • 2504 WLAN Controller
    • 802.11 a/g/n Fixed Unified Aps
    • High-Speed WAN Interface Control Module (HWIC)
  • Software:
    • Cisco IOS
    • Windows
    • CleanAir
    • WLC 7.0-MR1
    • WCS 7.0-MR1
    • Wireshark
    • Cisco Spectrum Expert
    • CAPWAP

Training Plan

Training Schedule
Weekdays (Mon-Fri)Weekend (Sat-Sun)
Duration2 Months4 Months
Hours4 Hours / Day6 Hours / day
Fees45,000 + Taxes45,000 + Taxes
Training ModeOnline/OnsiteOnline/Onsite

Group Discount

In a Group of 2 discount will be 10% per head
In a Group of 3 discount will be 15% per head
In a Group of 4 discount will be 20% per head

Trainer's Profile




Mr. Naiman Khan
CCIE Security v5 #54008

Mr. Naiman has over 6+ years of experience in Network Security and Wireless networking.
He is well qualified and holds various academic and professional qualifications, he holds Master’s in Computer Science
He is CCIE (Cisco Certified Internetwork Expert) in Security, MCSE and CEH certified.
Apart from MSc he holds keen interest in InfoSec as well…

Its been multiple years he has been associated with OctaNetworks, we are proud to have him has our Master Trainer.
He holds extensive knowledge in Network Security, Information Security and Cyber Security.

He knows very well how to train individuals and guides them accordingly.
He has assisted many engineers in their journey of CCIE Security and CCIE Wireless.

He has worked with several companies Deploying Multiple Projects in Security, Wireless platforms and sucessfully conducted several Corporate Trainings as well. He likes to keep updating himself with various new technologies hitting in the market.
In his free time he loves to go for cycling and watch movies.

Lab Facility

CCNP Wireless Course Details

Target Audience:

  • Network wireless engineers with at least one to three years of professional experience and CCNA Wireless Certification who want to enhance their skills and acquire in-depth knowledge of Enterprise wireless Network.


  • Valid CCNA Wireless Certification or any CCIE Certification
  • knowledge and skills that a learner must have before attending this Curriculum are as follows:
  • Understand the basic RF principles and characteristics
  • Understand WLAN security methods and access with differing client devices
  • Define the Cisco WLAN architecture and the underling infrastructure used to support it
  • Implement a Centralized wireless access network using AireOS or IOS-XE wireless LAN controllers
  • Implement a Converged wireless access network using IOS-XE converged access switches and wireless LAN controllers
  • Implement small and remote access wireless networks using FlexConnect, Autonomous or Cloud architectures
  • Perform basic WLAN maintenance and troubleshooting -describe the requirements for a WLAN design


300-360 WIDESIGN

1.0 Obtaining Customer Requirements as Related to the WLAN Installation

1.1 Identify business and RF application needs

1.2 Identify client density, capabilities and their impact on the wireless network

  • 1.2.a Client quantity, radio type, spatial streams

1.3 Identify the challenges of setting up a wireless network by various vertical markets

1.4 Describe required site survey documentation

  • 1.4.a Customer questionnaire
  • 1.4.b Floor plans & their quality
  • 1.4.c Describe the deliverables of the site survey

1.5 Identify coverage area requirements

  • 1.5.a Mesh
  • 1.5.b High density
  • 1.5.c Security sensitive
  • 1.5.d Real time applications

2.0 Determine Facility Type and Constraints Related to WLAN Deployments

2.1  Describe impact of regulatory domains

  • 2.1.a Mesh
  • 2.1.b Channel and power
  • 2.1.c Multi-national deployments

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

  • 2.4.a Determine high-throughput and very high throughput (VHT) protocol (n/ac) impact
  • 2.4.b Determine existing wireless infrastructure if required

2.5  Identify impact of material attenuation

  • 2.5.a Walls, cubicles, and the likes
  • 2.5.b Single/multi-floor
  • 2.5.c Campus
  • 2.5.d Warehouse/retail
  • 2.5.e Subtitle number 2.2

3.0 WLAN Predictive Design

3.1 Select the criteria used for coverage design

  • 3.1.a Data vs voice vs video vs location

3.2 Demonstrate the impact of frequency planning in a high density environment

  • 3.2.a Band select for high density
  • 3.2.b Optimize 2.4 GHz radio utilization
  • 3.2.c Legacy devices
  • 3.2.d Channel width

3.3 Use PI and Ekahau planning tools to make network plan

  • 3.3.a Enter network requirements in the tool
    • 3.3.a.[i] Capacity requirements
    • 3.3.a.[ii] Coverage requirements
  • 3.3.b Define the environment
    • 3.3.b.[i] Maps and scale
    • 3.3.b.[ii] Types of RF obstacles
  • 3.3.c Place and configure simulated APs and antennas
    • 3.3.c.[i] Place simulated APs (manual, automatics)
    • 3.3.c.[ii] Adjust APs and Antennas / AP TX power height and down tilt
  • 3.3.d Analyze key network metrics using heat maps for 2.4 and 5GHz
    • 3.3.d.[i] Analyze coverage, SNR, and channel overlap
    • 3.3.d.[ii] Analyze AP placements in regards to real time handoffs around corner

4.0 Pre-Deployment Site Survey

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

  • 4.2.a Select proper AP and antenna for conducting site survey
  • 4.2.b Configure AP
  • 4.2.c Survey for worst case client

4.3 Complete Layer 1 survey (Cisco CleanAir, Metageek Chanalyzer)

5.0 Post-Deployment Site Survey

5.1 Verify RF coverage

  • 5.1.a Utilize tools (Ekahau) for audit
  • 5.1.b RRM, controller
  • 5.1.c Analyze SNR, channel overlap, and packet loss

5.2 Verify network applications and performance

  • 5.2.a Apply PI tools (voice readiness, location readiness, site calibration)

5.3 Reconcile any deployment issues

5.4 Assemble and deliver installation report to customer

  • 5.4.a Indoor
  • 5.4.b Outdoor MESH

6.0 Design the Infrastructure of the Wireless Network

6.1 Determine physical infrastructure requirements

  • 6.1.a AC Power and POE
  • 6.1.b Understand cable plant considerations
  • 6.1.c Mounting considerations: NEMA
  • 6.1.d Outdoor grounding and lighting protection
  • 6.1.e Rack capacity
  • 6.1.f Switch port capacity

6.2 Determine logical infrastructure requirements

  • 6.2.a Determine AP count, controller count, and license requirements
  • 6.2.b Decide the type of architecture for the deployment

6.3 Describe IPv6 optimization on the WLC

  • 6.3.a RA filter
  • 6.3.b DHCP Server guard
  • 6.3.c DHCPv6 Source guard

7.0 Describe and Design Wireless Architecture for Real time Applications

7.1 Describe the relationship between real time applications & the wireless networks

  • 7.1.a Packet Error Rate (PER)
  • 7.1.b RF Coverage
  • 7.1.c Bit Error Rate (BER)
  • 7.1.d QoS
  • 7.1.e Call Admission Control (CAC)
  • 7.1.f Client roaming decision algorithm

7.2 Describe voice and video as they apply to the wireless network

  • 7.2.a Device capabilities (hardware and software)
  • 7.2.b Call setup/data flow overview
  • 7.2.c Other wireless voice and video services (i.e. Jabber, Lync, Skype, Viber, Facetime)
  • 7.2.d Standards and WIFI Alliance (WFA) certifications (.11r, .11e, .11n/ac, .11k, CCKM, voice enterprise, voice personal, WMM, UAPSD)
  • 7.2.e Cisco Compatible Extensions (voice features)
  • 7.2.f Voice and video codecs
  • 7.2.g Skinny Client Control Protocol (SCCP)
  • 7.2.h Session Initiation Protocol (SIP)

7.3 Describe real time applications (other than voice and video) as they apply to the wireless network

  • 7.3.a Session based and non-session based
  • 7.3.b Roaming sensitivity
  • 7.3.c Disconnection issue

7.4 Design wireless roaming parameters for supporting real time applications

  • 7.4.a 802.11 r/k, CCKM, OKC, mobility groups, interface groups,
  • 7.4.b Tuning RF parameters
  • 7.4.c AP placement considerations

7.5 Design wireless parameters for supporting real time applications

  • 7.5.a Minimum speed requirements-RSSI and SNR
  • 7.5.b Client transmit and receive sensitivity / mismatch with AP
  • 7.5.c Cell overlap requirements
  • 7.5.d Cell separations
  • 7.5.e Traffic control and management, QoS, VLAN, WMM, AVC
  • 7.5.f Delay and jitter requirements
  • 7.5.g CAC and TSPEC
  • 7.5.h Spectrum
  • 7.5.i 802.11n/ac enhancements
  • 7.5.j Concurrent client connections
  • 7.5.k Band select
300-365 WIDEPLOY

1.0 Implement QoS for Wireless Applications

1.1 Describe and implement general considerations for wired QoS

  • 1.1.a Configurations
  • 1.1.b DSCP/IP precedence to 802.1p mapping
  • 1.1.c Voice VLAN
  • 1.1.d Trust boundaries

1.2 Describe and implement the appropriate wireless QoS deployment schemes

  • 1.2.a 802.11e / WMM
  • 1.2.b Mapping-wired to wireless
  • 1.2.c Alloy QOS

1.3 Configure infrastructure QoS for wireless clients

  • 1.3.a CAC
  • 1.3.b TSPEC
  • 1.3.c EDCA parameters
  • 1.3.d Queues
  • 1.3.e Bandwidth control and override

1.4 Implement AVC

  • 1.4.a Configure AVC
    • 1.4.a.[i] Profiles
    • 1.4.a.[ii] Netflow/NBAR2
  • 1.4.b Monitor AVC
    • 1.4.b.[i] Controller
    • 1.4.b.[ii] PI

2.0 Implement Multicast over Wireless

2.1 Describe general multicast concepts

  • 2.1.a PIM
  • 2.1.b Cisco Group Management Protocol
  • 2.1.c IGMP snooping
  • 2.1.d RP

2.2 Describe implications for multicast in 802.11

  • 2.2.a Highest mandatory data rate
  • 2.2.b Unicast and multicast modes
  • 2.2.c Roaming
  • 2.2.d Controllers having same CAPWAP multicast group
  • 2.2.e Video stream (reliable multicast)
  • 2.2.f mDNS

2.3 Configure multicast in a wireless network

  • 2.3.a Infrastructure multicast group
  • 2.3.b IGMP snooping on the controller
  • 2.3.c Video stream (reliable multicast)
  • 2.3.d Switch peer group / Mobility group multicast

2.4 Configure mDNS

  • 2.4.a mDNS gateway
  • 2.4.b LSS
  • 2.4.c Service advertisement
  • 2.4.d MAC priority
  • 2.4.e AAA override
  • 2.4.f ISE portal
  • 2.4.g Static advertisements on converged access
  • 2.4.h mDNS profiling

3.0 Implement High Density

3.1 Design for High Density

  • 3.1.a High client count (high capacity)
  • 3.1.b High AP count (high density)

3.2 Implement RXSOP

3.3 Implement enhanced roaming

3.4 Implement AP Groups

  • 3.4.a RF profiles

3.5 Implement interface groups

3.6 Implement client limits

  • 3.6.a Per Radio
  • 3.6.b Per WLAN
  • 3.6.c Per Interface

4.0 Design and Deploy WLAN Infrastructure for Mobility

4.1 Describe the impact of client VLAN assignment on mobility

  • 4.1.a AP group VLANS
  • 4.1.b Identity based networking

4.2 Minimize inter controller roaming

4.3 Describe mobility control plane architectures

4.4 Describe mobility tunneling process

  • 4.4.a Formation
    • 4.4.a.[i] Ability to identify the tunnels created
  • 4.4.b Tear down
  • 4.4.c Messaging
  • 4.4.d Handoff types

4.5 Implementing client mobility

  • 4.5.a Switch Peer Group (SPG)
  • 4.5.b Mobility groups
  • 4.5.c Mobility lists
  • 4.5.d Anchoring
  • 4.5.e Virtual interface continuity
  • 4.5.f Mobility Optimization (11k/11v)
  • 4.5.g Verify resulting mobility tunneling structure

5.0 Implement Cisco MSE Architecture

5.1 Describe Cisco MSE capabilities and integration with wireless network architecture

  • 5.1.a Context aware
  • 5.1.b Adaptive wireless IPS
  • 5.1.c Analysis
  • 5.1.d CleanAir
  • 5.1.e Scalability

5.2 Describe location techniques

  • 5.2.a Angulation
  • 5.2.b Cell of origin
  • 5.2.c TDoa and ToA lateration
  • 5.2.d RSS lateration
  • 5.2.e Pattern recognition
  • 5.2.f RF Fingerprinting
  • 5.2.g Compare probe based location vs data frame based location
  • 5.2.h Bluetooth Low Energy (BLE)

5.3 Identify the relevant parameters required Initialize MSE for network operations

5.4 Implement base location services

  • 5.4.a Calibration procedure
    • 5.4.a.[i] PI based
    • 5.4.a.[ii] Ekahau based
  • 5.4.b Complex environments
    • 5.4.b.[i] Mixed use environments
    • 5.4.b.[ii] Complex RF environments
    • 5.4.b.[iii] Small areas ( i.e new presence capabilities)
    • 5.4.b.[iv] Multi-floor facilities
    • 5.4.b.[v] Recalibration
  • 5.4.c NMSP
  • 5.4.d Synchronization
  • 5.4.e History parameters
  • 5.4.f Tracking parameters
    • 5.4.f.[i] Active RFID tag
    • 5.4.f.[ii] WiFi-Devices
    • 5.4.f.[iii] Active Interferes
    • 5.4.f.[iv] Rogue devices

5.5 Implement advanced location services

  • 5.5.a Analytics
    • 5.5.a.[i] Location (zone based)
    • 5.5.a.[ii] Presence (site based)
  • 5.5.b Visitor connect
  • 5.5.c Describe AppEngage
  • 5.5.d Facebook for Wi-Fi
  • 5.6 Integrate MSE with PI
  • 5.6.a Identify the relevant components to integrate the MSE with PI
  • 5.6.b Identify the relevant steps to Integrate MSE with PI
  • 5.6.c Identify the relevant steps required to Maintain MSE

6.0 Design and Implement FlexConnect Architecture

6.1 Compare and contrast the components of FlexConnect architecture

  • 6.1.a Local switching vs Central switching
  • 6.1.b Local Auth vs Central Auth
  • 6.1.c Connected mode vs Standalone mode

6.2 Describe and implement the capabilities of a FlexConnect group

  • 6.2.a VLAN mapping
  • 6.2.b ACLs
  • 6.2.c AP Image upgrade
  • 6.2.d Authentication and key management
  • 6.2.e Central vs Local DHCP

6.3 Describe the impact of FlexConnect architecture on roaming

  • 6.3.a ACLs
  • 6.3.b Authentication
  • 6.3.c Key management
  • 6.3.d Real time application

6.4 Describe and implement Office Extend operation

  • 6.4.a Configuration
    • 6.4.a.[i] Controller
    • 6.4.a.[ii] AP
  • 6.4.b Split tunneling for printing and general traffic

7.0 Implement Controller and AP High Availability

7.1 Configure the wireless network for high availability

  • 7.1.a LAG vs Port based
  • 7.1.b Backup primary and backup secondary outside of mobility group
  • 7.1.c Anchor controller redundancy

7.2 Configure high availability for the AP

  • 7.2.a AP fallback
  • 7.2.b AP prioritization
  • 7.2.c Legacy primary ,secondary, and tertiary

7.3 Configure high availability for the Controller

  • 7.3.a AireOS
    • 7.3.a.[i] Stateful switch over (SSO)
  • 7.3.b IOS-XE
    • 7.3.b.[i] Stateful switch over (SSO)
    • 7.3.b.[ii] Stacking

8.0 Wireless Bridging (MESH)

8.1 Describe the following MESH AP modes of operation

  • 8.1.a RAP
  • 8.1.b MAP
  • 8.1.c Flex on MESH

8.2 Describe the considerations for a MESH deployment

  • 8.2.a Hop count
  • 8.2.b Backhaul caveats
  • 8.2.c AP authorization
  • 8.2.d Outdoor RF considerations
  • 8.2.e VLAN transparent bridging

8.3 Describe the convergence of a MESH network

  • 8.3.a Cisco AWPP
  • 8.3.b Bridge group names
  • 8.3.c Parent selection
  • 8.3.d Fast convergence modes
  • 8.3.e Re-convergence

8.4 Implement workgroup bridge

  • 8.4.a Proprietary
    • 8.4.a.[i] Reliable multicast
    • 8.4.a.[ii] Roaming
  • 8.4.b Universal

8.5 Describe the passive client feature

  • 8.5.a No IP address learning
  • 8.5.b Third party WGB support
300-370 WITSHOOT

1.0 Troubleshooting Methodology

1.1 Apply the appropriate trouble shooting methods to identify an issue

  • 1.1.a Bottom up
  • 1.1.b Top down
  • 1.1.c Divide and Conquer
  • 1.1.d Shoot from the hip

1.2 Utilize the appropriate tools to assist in isolating an issue

  • 1.2.a Interpret Show commands
  • 1.2.b Interpret Debug commands
  • 1.2.c Interpret Config analyzer output
  • 1.2.d Interpret Sniffer traces
  • 1.2.e Interpret Spectrum analysis
  • 1.2.f Interpret Ekahau output

2.0 Troubleshoot AP Joining Issues

2.1 Resolve controller discovery issues

  • 2.1.a Compare controller discovery methods
  • 2.1.b Analyze Controller selection method

2.2 Resolve DTLS session establishment issues

2.3 Resolve AP Joining issues

  • 2.3.a Analyze join phase issues
  • 2.3.b Analyze configuration phase issues

3.0 Troubleshoot Client Connectivity Issues

3.1 Identify and resolve authentication issues

  • 3.1.a Identify 802.11 issues
  • 3.1.b Analyze external EAP issues
  • 3.1.c Resolve local EAP issues
  • 3.1.d Resolve WebAuth issues

3.2 Identify RF signal issues

  • 3.2.a Analyze poor RSSI/SNR issues due to AP-client positions
  • 3.2.b Evaluate degraded RF conditions in the cell
  • 3.2.c Evaluate excessive retries
  • 3.2.d Resolve poor roaming performances (client stickiness or cell overlap issues)

3.3 Resolve supplicant configuration issues – (iOS, Android, Windows, MAC OS, year 2013+)

3.4 Troubleshooting autonomous AP links

  • 3.4.a Troubleshooting work group bridge connectivity
  • 3.4.b Troubleshoot WGB roaming issues
  • 3.4.c Evaluate AP to AP EAP authentication issues
  • 3.4.d Resolve root and non-root connectivity issues

4.0 Identify and Locate RF Interferences

4.1 Identify and mitigate rogues

  • 4.1.a Characterize rogue clients and rogue access point
  • 4.1.b Implement rogue mitigation techniques

4.2 Manage non-802.11 interferences

  • 4.2.a Detect and characterize non-802.11 interferences
  • 4.2.b Evaluate interference zone of impact
  • 4.2.c Assess interference security severity

5.0 Troubleshoot Client Performance Issues

5.1 Characterize roaming issues

  • 5.1.a Identify client stickiness
  • 5.1.b Mitigate ping pong effect
  • 5.1.c Resolve cross-band roaming issues

5.2 Evaluate throughput and data rate issues

  • 5.2.a Identify rate shifting issues
  • 5.2.b Evaluate incompatible client requirements vs AP settings

5.3 Identify the source of poor user experience

  • 5.3.a Evaluate L2 issues vs upper Layer issues
  • 5.3.b Identify cell design issues
  • 5.3.c Mitigate Overlapping Basic Service Sets (OBSS) issues in high density designs
  • 5.3.d Resolve channel planning issues

6.0 Identify Common Wired Infrastructure Issues Based on the Output From Common Troubleshooting Tools

6.1 Identify DHCP – DHCPv4 / DHCPv6 issues

6.2 Identify DNS issues

6.3 Identify VLAN issues

6.4 Analyze end to end IP connectivity issues

6.5 Assess POE issues

6.6 Describe stacking as it related to wireless licenses and WCM role

7.0 Troubleshoot WLC and AP High Availability Issues

7.1 Troubleshoot primary, secondary, tertiary controller join issues

  • 7.1.a Resolve configuration mismatch
  • 7.1.b Address capacity and capability mismatch

7.2 Troubleshoot Stateful Switch Over (SSO) issues

  • 7.2.a Resolve primary and backup communication issues
  • 7.2.b Assess primary and backup unsynchronized elements
  • 7.2.c Analyze AP and client failover process

Candidates need to undertake below exam

Exam NameExam CodeFeesDurationRegistration
Designing Cisco Wireless Enterprise Networks (WIDESIGN)300-360 WIDESIGN
(60-70 questions)
$30090 minutesPearson VUE
Deploying Cisco Wireless Enterprise Networks (WIDEPLOY)300-365 WIDEPLOY
(60-70 questions)
$30090 minutesPearson VUE
Troubleshooting Cisco Wireless Enterprise Networks (WITSHOOT)300-370 WITSHOOT
(60-70 questions)
$30090 minutesPearson VUE
Securing Cisco Wireless Enterprise Networks (WISECURE)300-375 WISECURE
(60-70 questions)
$30090 minutesPearson VUE

Upon completion of this course candidates will learn:

WIDESIGN - Designing Cisco Wireless Enterprise Networks v1.1
  • Customer Wi-Fi design process
  • Design for data coverage
  • Design for voice and real-time applications
  • Design for location and Cisco CMX
  • Design for Wi-Fi beyond the enterprise campus
  • How to conduct a site survey
WIDEPLOY- Deploying Cisco Wireless Enterprise Networks v1.1
  • Deploy a Wi-Fi infrastructure
  • Configure advanced capabilities in data designs
  • Configure advanced capabilities in voice and real-time application designs
  • Configure advanced capabilities in location designs
  • Configure advanced capabilities in outdoor and high-density designs
WITSHOOT - Troubleshooting Cisco Wireless Enterprise Networks v1.1
  • Methodology
  • AP joining issues
  • Client connectivity issues
  • Identify and locate RF interferences
  • Client performance issues
  • Identify common wired infrastructure issues based on the output from common troubleshooting tools
  • WLC and AP high-availability issues
WISECURE - Securing Cisco Wireless Enterprise Networks v1.1
  • Security approaches in a Wi-Fi design
  • Design and deploy end point and client security
  • Design and deploy Cisco ISE in Wi-Fi network
  • Secure the Wi-Fi infrastructure
  • Design and deploy Wi-Fi access control
  • Management and monitoring capabilities in the Wi-Fi environment

Candidates will have Employment Opportunities with following Job Title:

  • Level 2 Network Wireless Engineers
  • Level 2 Network Wireless Administrators
  • Level 2 Network Wireless Support Engineers
  • Level 2 Network Wireless Consultant
  • Level 2 Technical Consultant


Upcoming Batches
Weekday1 Jan 2018
29 Jan 2018
24 Feb 2018
23 Mar 2018
21 Apr 2018
20 May 2018
Weekend6 Jan 2018
25 Feb 2018
25 Mar 2018
25 Apr 2018
25 May 2018
25 Jun 2018

Frequently Asked Question

What is CCNP Wireless Certification?

CCNP Wireless provides the knowledge of identifying customer and application requirements, applying predictive wireless design principles and conducting site surveys needed to design and optimize Enterprise wireless networks.
Knowledge of implementing wireless networks based on the applicable Cisco controller and Unified switching architectures that support high availability, QoS, multicast, and mobility services.

Knowledge of troubleshooting and optimizing Enterprise wireless infrastructure and related services plus the tools and methodologies needed to identify and resolve client connectivity, performance, and RF issues.

Knowledge of implementing client device security, identity based authentication and services, along with securing and monitoring the Enterprise wireless infrastructure.

What is the duration of CCNP Wireless course?

The duration of course depends on the batch you select. Regular (mon – fri) classroom training takes 8 weeks or 160 hours, or Weekend (sat – sun) classroom training takes 2 Months or 160 hours. You can choose and check out the schedule and fees accordingly.

When do I get my CCNP Wireless certificate after passing an exam?

As per the procedures, printed CCNP Wireless Certification takes 6-8 weeks to reach you by mail. Check the status of your certificate in your Certification Tracking System. Date with a “Mailed” status implies the dispatch of your certificate on that date. No status found or 8 weeks are over, register a case with Certification & Communities Online Support team at www.cisco.com/go/certsupport.

What does the CCNP Wireless program cover?

WIDESIGN – Designing Cisco Wireless Enterprise Networks v1.1
WIDEPLOY- Deploying Cisco Wireless Enterprise Networks v1.1
WITSHOOT – Troubleshooting Cisco Wireless Enterprise Networks v1.1
WISECURE – Securing Cisco Wireless Enterprise Networks v1.1

What is the exam code of current version of CCNP Wireless Certification?

There are 4 exams in CCNP Wireless:
o 300-360 WIDESIGN
o 300-365 WIDEPLOY
o 300-370 WITSHOOT
o 300-375 WISECURE

What study material are referred for CCNP Wireless training?

Cisco press books, latest workbooks prepared & revised regularly by experts.

How much am I expected to earn once I get CCNP Wireless Certified?

Fresher may earn between 4,00,000 – 5,00,000 INR which may increase significantly with work experience, improved hands-on skills and other related factors.

Is online mode available for the CCNP Wireless training?

Yes. The batches are available in both weekdays as well as weekends in morning and evening sessions.

What are the facilities that Octa Networks provide for CCNP Wireless Certification?

We provide lab training facility in Asia with 24×7 Lab access with rack and lab administrator guide. We offer great value for money to all our candidates through Personality development sessions. Our training is best in Mumbai and our trainers are CCIE Certified.

Is weekend training available for working professionals?


What would be various job roles offered to a CCNP Wireless candidates?

• Level 2 Network Wireless Engineers
• Level 2 Network Wireless Administrators
• Level 2 Network Wireless Support Engineers
• Level 2 Network Wireless Consultant
• Level 2 Technical Consultant

How to get recertified in CCNP Wireless? Is it necessary?

CCNP Wireless certification is valid for three years.
To recertify, pass ONE of the following before the certification expiration date:
• Pass any current 642-XXX Professional-level or any 300-XXX Professional-level exam, or
• Pass any current CCIE Written Exam, or
• Pass the current CCDE Written Exam OR current CCDE Practical Exam, or
• Pass the Cisco Certified Architect (CCAr) interview AND the CCAr board review to extend lower certifications.

How many questions does the CCNP Wireless certification exam consist of?

o 300-360 WIDESIGN = 55 – 65 questions
o 300-365 WIDEPLOY = 55 – 65 questions
o 300-370 WITSHOOT = 55 – 65 questions
o 300-375 WISECURE = 55 – 65 questions

Reviews & Comments

Student Reviews

Yesterday we learned the basics of BGP including property, message types, states,role of igp into bgp and Rathod sir explained how messages are involved with states of bgp.
I left the class after half session because of office work 😞 and could not attend the remaining last 45 minuets.
But one thing is best and will be always best that our Trainer Jagdish Sir is always in positive mode and clear our doubt positively.
Thank you Jagdish sir, Arshad Sir and Octa networks for providing such an opportunity to learn the technology.
Jagdish Sir is doing his best in all session with same energy……….

My self Krishnendu form Kolkata i have attended CCNA Service provider and CCNP routing and Switching training from Octa Network. My trainer is Mr jagdish Rathod. He teaches us everything in detail. Today we have competed HSRP, VRRP and GLBP theory as well as Practical sessions. I have cleared all my doubts related to HSRP. Thank you Octa Networks, Rathod Jagdish, Arshad Dhunna, and Joaquim Fernandes sir.

I have attended the CCNA Wireless 8am-10am class.I learnt about RRM and AP group RF. Mr.Vibhor Sir explained these concept in very well manner.He keeps the session very interactive and solves all the queries raised by Students.Thanks Octa networks for providing such a talented mentor.

Thank You Octa Networks arshad Dhunna and Joaquim Fernandes for providing this Great Opportunity.

Yes its true 🤩

First of all I am giving 100/100 and I strongly recommended Octa Networks to all from this entire world that if want to start your carrier in Networking field (it doesn’t matter you are from technical background on not) Octa Networks will makes you champion in Networking (CCNA, CCNP, CCIE in all tracks).

Wish you all the best Octa Networks. Arshad Dhunna. Rathod Jagdish.

Amitesh Arnav, India

Attending CCNA Security class from Manuhar Khan, he is delivering very good security lecture, very polite & answer all the queries. One thing that I must tell you about him, his example are really interesting by relating real environment, That you can’t forget easily.

Recommending OCTA NETWORKS

Shan Vel

Octa network is such great place . To hole world global training Centre . I such a trainer is Jagdish Rathore sir provide training CCNA. / CCNP/ CCIE tramendous.. there his mind set .it’s great mentor , trainer , motivations .he is practically Person. Repeated every dout particular topic Clear..

Gaurav Kabre

Currently, I am taking CCNA Data Center training which is lead by Mr. Ronak Vyas. I appreciate his efforts in guiding and explaining the DC concepts. Also, he answers all the questions or doubts raised by the participants after explaining the topic.

Mr.Ronak very well explained step by step on concepts like UCS, OTV and VPC in Lab rack setup practically.
Thanks Octa Networks

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