Description
Complete Study Guide: Cisco CCIE Wireless Infrastructure v1.0 Lab Training Mumbai India
The Cisco CCIE Wireless Infrastructure v1.0 certification is highly sought after by professionals aiming to specialize in wireless networking technologies. At IP Route, we provide a comprehensive Cisco CCIE Wireless Infrastructure v1.0 Training Mumbai, tailored to equip candidates with the skills and expertise needed to excel in this specialized area. Our program is structured to ensure thorough preparation for the certification exam, with a focus on real-world lab scenarios that offer practical experience.
Whether you’re looking to advance your career in wireless networking or need hands-on lab experience to pass the certification exam, our training provides everything you need for success.
Benefits of Cisco CCIE Wireless Infrastructure v1.0 Lab Training in Mumbai India
Hands-On Experience with Wireless Infrastructure and Technologies
Our training emphasizes hands-on labs and practical exercises, ensuring that you gain real-world experience with Cisco wireless infrastructure, including configuration, management, and troubleshooting of wireless networks. You will work in lab environments designed to mirror real-world scenarios.
Comprehensive Curriculum Covering the Exam Blueprint
The Cisco CCIE Wireless Infrastructure v1.0 Training program covers every aspect of the exam, including RF fundamentals, wireless security, WLAN design, and troubleshooting. Our curriculum is aligned with the official Cisco exam blueprint, ensuring you’re well-prepared for all exam components.
Learn from Industry Experts and Get Continuous Support
Our instructors are certified and experienced professionals in wireless networking. They provide in-depth guidance throughout the training, helping you grasp complex topics and offering tips and strategies for the exam.
Flexible Learning Options to Suit Your Needs
We offer a range of flexible training options, including on-site, remote, and hybrid learning models. Whether you’re in Mumbai or prefer remote learning, we have options to fit your schedule and learning preferences.
Tailored for Success in the Indian Wireless Networking Market
Our training program is designed with the specific needs of the Indian IT market in mind. As Mumbai grows as a tech hub, our localized training ensures that you are well-prepared for the challenges you may face in the wireless networking space.
FAQs
1. What is Cisco CCIE Wireless Infrastructure v1.0 Training?
This specialized training is designed to help professionals prepare for the Cisco CCIE Wireless Infrastructure v1.0 certification exam, focusing on wireless networking technologies and infrastructure.
2. Who can enroll in this training?
The training is ideal for networking professionals looking to specialize in wireless technologies. Some prior experience in networking is recommended, but beginners can also enroll with foundational knowledge.
3. What topics are covered in the training?
The training covers RF principles, WLAN design, wireless security, and troubleshooting wireless networks. It aligns with the official Cisco exam blueprint for CCIE Wireless Infrastructure v1.0.
4. Can I attend the training remotely?
Yes, we offer remote training options in addition to on-site classes in Mumbai. Our hybrid learning models are designed to be flexible and convenient for professionals.
5. Do you provide access to labs and study materials?
Yes, we offer full access to environments and comprehensive study materials, ensuring that you have everything you need to prepare for the exam and succeed.
The following topics are general guidelines for the content likely to be included on the exam. Your knowledge, skills and abilities on these topics will be tested throughout the entire network lifecycle, unless explicitly specified otherwise within this document.
- 1.1 IEEE 802.11 standards and protocols
- 1.2 RF Design / Site survey
- 1.2.a Define the tasks/goals for a preliminary site survey
- 1.2.b Conduct the site survey
- 1.2.c Determine AP quantity, placement and antenna type
- 1.3 Indoor and outdoor RF deployments
- 1.3.a Coverage
- 1.3.b Throughput
- 1.3.c Voice
- 1.3.d Location
- 1.3.e High Density / Very High Density
- 1.4 RF operational models
- 1.4.a Radio resource management (Auto-RF, manual, hybrid, Flexible Radio Assignment, TPC and DCA, CHD)
- 1.4.b Channel use (Co-channel, radar, non-WiFi interference, Dynamic Bandwidth Selection)
- 1.4.c Power level, overlap
- 1.4.d RF profiles
- 1.4.e Data rates
- 1.4.f RX-SOP
- 1.4.g CleanAir and EDRRM
- 1.4.h Air Time Fairness (ATF)
- 2.1 Layer 2 technologies to support wireless deployments
- 2.1.a VLANs
- 2.1.b STP
- 2.1.c Etherchannel
- 2.1.d CDP, LLDP
- 2.2 Data/Control plane technologies to support a SD-Access wireless deployment
- 2.2.a VXLAN and LISP
- 2.2.b VRFs
- 2.3 AP powering options
- 2.4 IPv4 and IPv6 connectivity
- 2.4.a Subnetting
- 2.4.b Static and inter-VLAN routing
- 2.5 Multicast on the switching infrastructure
- 2.5.a PIM
- 2.5.b Basic IGMP (including IGMP snooping)
- 2.5.c MLD
- 2.6 QoS on the switching infrastructure
- 2.6.a MQC
- 2.6.b MLS QoS
- 2.7 Services to support a wireless deployment
- 2.7.a DNS
- 2.7.b DHCPv4 / DHCPv6
- 2.7.c NTP, SNTP
- 2.7.d SYSLOG
- 2.7.e SNMP
- 3.1 WLC interfaces and ports
- 3.2 Lightweight APs
- 3.2.a AP modes
- 3.2.b AP Logging
- 3.2.c AP CLI troubleshooting
- 3.2.d AP level configuration settings
- 3.2.e WLC discovery and AP join process
- 3.2.f AP join profile
- 3.3 High availability, redundancy, and resilience
- 3.3.a SSO
- 3.3.b N+1, N+N
- 3.3.c Patching and rolling upgrades for IOS-XE
- 3.3.d ISSU
- 3.4 Wireless segmentation with profiles and groups
- 3.4.a RF profiles
- 3.4.b AP groups
- 3.4.c Flex groups
- 3.4.d Site tag
- 3.4.e RF tag
- 3.4.f Policy tag
- 3.5 FlexConnect and Office Extend
- 3.6 All controller deployment models
- 3.7 Mesh
- 3.8 WGB on IOS and on COS APs
- 3.9 Controller Mobility
- 3.9.a L2/L3 roaming
- 3.9.b Multicast optimization
- 3.9.c Mobility group scaling
- 3.9.d Inter-OS controller mobility
- 3.9.e Mobility anchoring
- 3.9.f Mobility encryption
- 4.1 Secure management access and control plane
- 4.1.a Device administration with TACACS+/RADIUS
- 4.1.b CPU ACLs
- 4.1.c Management via wireless and dynamic interface
- 4.1.d Password policies
- 4.1.e AP authorization
- 4.2 Identity management
- 4.2.a Basic PKI for dot1X and WebAuth
- 4.2.b Internal and external identity sources
- 4.2.c Identity PSK
- 4.3 Wireless security and Network access policies
- 4.3.a Client authentication and authorization
- 4.3.b Client profiling and provisioning
- 4.3.c RADIUS attributes
- 4.3.d CoA
- 4.3.e ACLs
- 4.3.f L2/L3 security
- 4.3.g Certificates
- 4.3.h Local policies
- 4.4 Guest management
- 4.4.a Local web authentication
- 4.4.b Central web authentication
- 4.4.c Basic sponsor policy
- 4.5 Access Point switchport authentication
- 4.5.a MAB
- 4.5.b 802.1X
- 4.5.c NEAT
- 4.5.d Switchport macros
- 4.6 TrustSec for SD-Access Wireless
- 4.6.a SGTs
- 4.6.b SGACLs
- 4.7 Intrusion detection and prevention features
- 4.7.a Rogue policies
- 4.7.b MFP
- 4.7.c Standards and custom signatures
- 4.7.d Client exclusion policies
- 4.7.e Switchport tracing
- 5.1 QoS policies
- 5.1.a QoS profiles
- 5.1.b EDCA
- 5.1.c WMM
- 5.1.d Bi-Directional Rate Limitting
- 5.1.e Admission control
- 5.1.f QoS maps
- 5.1.g FastLane
- 5.2 AVC and netflow
- 5.3 Client roaming optimization
- 5.3.a Band Select
- 5.3.b Load Balancing
- 5.3.c 802.11r and Adaptive Fast Transition
- 5.3.d 802.11k/v
- 5.4 Wireless Multicast
- 5.4.a Multicast modes in the controllers
- 5.4.b Multicast snooping
- 5.4.c Multicast direct
- 5.4.d Mulitcast VLAN
- 5.5 mDNS
- 5.5.a mDNS proxy
- 5.5.b Service discovery (both classic deployment and Wide Area Bonjour)
- 5.5.c Service filtering
- 6.1 Prime Infrastructure
- 6.1.a Basic operations
- 6.1.a i Create and deploy templates
- 6.1.a ii Operate maps
- 6.1.a iii Import infrastructure devices
- 6.1.a iv Audits
- 6.1.a v Client troubleshooting
- 6.1.a vi Notification receivers
- 6.1.a vii Reports
- 6.1.a viii Monitoring policies
- 6.1.a ix Prime Infrastructure jobs
- 6.1.b WLAN Security management
- 6.1.b i Configure rogue management
- 6.1.b ii Manage alarms and events
- 6.2 Cisco CMX/DNA Spaces
- 6.2.a Management access
- 6.2.b Network services
- 6.2.b i Analytics Metrics
- 6.2.b ii Location
- 6.2.b iii Profiles
- 6.2.b iv Engage
- 6.2.c Operational Insights
- 6.2.d API calls using python scripts
- 6.3 Cisco DNA Center
- 6.3.a Wireless Automation
- 6.3.a i Day 0 – Provisioning
- 6.3.a ii SWIM
- 6.3.a iii Application policies
- 6.3.a iv Security policies
- 6.3.a v Operate Maps
- 6.3.b Assurance
- 6.3.b i Network health and WLC/AP 360
- 6.3.b ii Client health and client 360
- 6.3.b iii Application experience
- 6.3.b iv Sensors
- 6.3.b v iPCAP and on demand captures
- 6.3.b vi Network telemetry
- 6.3.c SD Access
- 6.3.c i Fabric enabled wireless
- 6.3.c ii SDA policy and segmentation
