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CCIE Wireless Written Bootcamp & CCIE Wireless Writting Training Courses
- Candidates who want to become CCIE Wireless certified
- Existing CCIE's who need to re-certify their CCIE qualification
Cisco Career Certifications
This course is part of the following Certifications:
- CCIE (Cisco Certified Internetwork Expert) Wireless
Prerequisites
There are no formal prerequisites for CCIE certification; other professional certifications or training courses are not required. But candidates should:
- have an in-depth understanding of the topics in the exam blueprints and
- have three to five years of job experience before attempting certification
- have a determined attitude, patience and strong will.
Course Objectives
Cisco has responded to the challenge in the internetworking technology with the Cisco Certified Internetwork Expert (CCIE) Program. This is currently the most significant certification in the industry.
The coursefox.com CCIE Written Boot Camp does not include the actual exam, but provides delegates with the necessary theory to prepare for the two-hour, multiple choice test. It will include Wireless network theory related to topics that will be covered in the exam.
Delegates should be prepared to work beyond the usual classroom hours in order to prepare for the written exam.
After passing the written exam, delegates can then proceed to the CCIE Wireless Lab Boot Camp which will prepare them for the practical lab exam.
Course Content
- Plan WLAN installations
Define standards-based WLAN (802.11x standards)
Define WLAN organizations and regulations
Identify customer requirements for the wireless LAN
Translate customer requirements into services and design recommendations
Determine WLAN security policies and constraints
Identify ambiguity and/or information gaps
Evaluate environmental characteristics
Define the tasks/goals for a preliminary site survey
Modify proposed solutions based on the applicable regulations
Evaluate the existing L2/L3 network infrastructure
Conduct the site survey
- Design WLAN installations
Determine AP quantity and placement based upon the site survey and customer requirements, includes AP type and antenna type
Recommend autonomous or unified deployment model and design
Identify the wireless features needed to be implemented in the design, including AP groups, L2/L3 roaming, H-REAP, VoWLAN, AAA override, etc.
Design the wireless topology including VLANs, DHCP, SSIDs, IP addressing, mobility groups, etc.
Draft an RF operational model that includes:
(a) Radio resource management (Auto-RF, manual, hybrid, TPC and DCA)
(b) Channel use (Radar, other non-WiFi interference)
(c) Power level, overlap
Draft WLAN Security policies:
(a) Traffic restrictions for L2 filters (802.11 association filters), L3/L4 filters (ACL)
(b) Per user, per interface, per SSID; Management access restrictions; peer-to-peer blocking
(c) Layer 2/3 security
(d) WPS, MFP, NAC
Specify the server infrastructure needed to provide the required services
Determine the feasibility of carrying LWAPP over WAN
Determine hardware and software provisioning requirements for the supporting network infrastructure
Determine client provisioning given client hardware and software requirements
Use wireless network design tools
Draft a design that includes deliverables such as: detailed or high level annotated topology diagram, internal estimates for each site, BOMs for a wireless LAN
- Implement WLAN Installations
Implement the WLAN in stages including priming and system testing access points
Set appropriate configuration parameters
Configure the existing infrastructure applications to support the WLAN, including authentication services (Radius, TACACS+, CA), NTP, DHCP, DNS (LWAPP controller), clients
Configure the existing network infrastructure to support the WLAN, including VLANS, Multicast, QoS, routing, switch port configurations, port access through Firewalls (guest access, anchor controllers), etc.
For an autonomous wireless architecture deploy APs and antennas, Wireless Distribution Systems (WDS),
Bridges (Point-to-Point, Point-to-Multi-Point), Work-group bridges
For a unified wireless architecture deploy APs and antennas, WLC with(out) WCS, AP and WLC configurations (auto-provisioning), location (location server, WCS Maps, location calibration)
Implement WLAN Security policies, including:
(a)Traffic restrictions:
(i)L2 filters (802.11 association filters)
(ii)L3/L4 filters (ACL) - per user, per interface, per SSID
(iii)Management access restrictions
(iv)Peer-to-peer blocking
(b)Layer 2/3 security
(c)WPS,MFP
Implement support Voice over WLAN deployments, for both Unified and Autonomous
Verify WLAN operation, Client, Location, Voice, Roaming, Post deployment site survey, Network High Availability, Auto-RF, etc
- Operate WLAN installations
Determine key performance indicators (kpi) baseline WLAN operational characteristics
Collect baseline WLAN operational characteristics using network analysis tools
Establish fault management policy and procedures for indicators that should be routinely monitored including Establish Alert Profiles; Noise, Channel Utilization, Interference, Load, etc.
Monitor for faults
(a) Actively monitor changes based on thresholds (proactive); SNMP polling
(b) Receive alarms and wait until notification. (reactive); SNMP traps, syslog messages, WCS notifications
Monitor performance trends including Capacity planning; Error rates, Number of clients associated with an AP, AP loading, Threshold figures (1% packet loss for Voice), reference 802.11t; End-to-end traffic flows, etc.
Monitor WLAN Security policies.
(a) Traffic restrictions:
(i)L2 filters (802.11 association filters)
(ii) L3/L4 filters (ACL) - per user, per interface, per SSID
(iii) Management access restrictions
(iv) Peer-to-peer blocking
(b) Layer 2/3 security
(c) WPS
Monitor RF environments using Cisco Spectrum Expert; AP infrastructures
Correlate events, alarms and alerts
- Troubleshoot WLAN issues
Use the standard troubleshooting method to solve problems
Check , validate and analyze:
(a)Client Devices
(i)Interpret and analyze client side logs.
(ii)Validate client connectivity/troubleshoot client via WCS.
(iii)Interpret and analyze wireless traces.
(iv)Client wireless drivers and supplicant software.
(b)Network infrastructure.
(i)Check and validate current channel/power settings
(ii)Validate security events with WCS
(iii)Validate location information in WCS
(iv)Validate trap generation, notifications in WCS
(v)Collect appropriate logs for analysis to isolate the problem.
(vi)Interpret and analyze sniffer traces
Analyze the collected information on the RF environment using client-side information and AP-side information (through WLC or WCS) and spectrum analyzer (Cisco Spectrum Expert).
Audit voice over WLAN deployment
Verify baseline functionality has been restored upon implementing problem resolution
Dates for UK : Almost Weekly
Locations : Every Major UK city
To request UK and Ireland course availability please click here
Course-ID: CI-CCIEWLANW
Price:
UK: 1.995 GBP
Duration: 5 Days
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Who Should Attend
Prerequisites
Course Objectives
Course Content