Cisco Unified Wireless Networks – CUWN V.4.0 Course duration 3

Cisco Unified Wireless Networks – CUWN V.4.0
Course duration
3 days
Prerequisites
Understanding of VLANs, IP networks, Wireless LANs (IEEE802.11) and Security (PKI and 802.1x)
Target Audience
Network Managers
Objectives
• Identify functionality unique to each Cisco Wireless LAN Controller
• Identify the functionality of Cisco access point hardware and describe the function and operation of
Cisco LWAPP
• List the properties of the Auto RF function
• Use the three interfaces used for Cisco wireless hardware management: CLI, Controller Web and
Wireless Control System (WCS)
• Configure VLANs, WLANs, Security Policies and the Network Management System (WCS)
Content
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Cisco Unified WLAN Solution
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Cisco Unified Wireless Hardware Installation
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Cisco Unified Wireless Network Administration
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WLAN Security
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WLAN Maintenance
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Cisco Wireless Control System
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Cisco Location Tracking
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Labs
Dates
12-14 September, 2006 – Stockholm
Cisco Wireless Mesh Networks – CWMN V.1.0
Course duration
2 days
Prerequisites
Understanding of VLANs, IP networks, Wireless LANs (IEEE802.11) and Security (PKI and 802.1x)
Cisco Airespace Installation, Administration and Maintenance (CAIAM) 3.0 or the newer version of the
course Cisco Unified Wireless Networks (CUWN) 3.2
Target Audience
Network Managers
Objectives
To design, install and maintain a wireless mesh network both as an add-on to an existing wireless LAN and
as a new installation.
Content
Technology Overview: Components, Installation, Administration and Maintenance
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Describe mesh networking, including relevant markets, components, and supporting technology
Explain the various deployment options for Aironet 1500 Lightweight Access Point
Describe relevant technical aspects of the Aironet mesh networking solution that effect performance,
throughput and distances
Explain the features and benefits of the Aironet 1500 Lightweight Access Point
Design Requirements
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Describe some of the factors to be considered during an outdoor WLAN deployment
Explain Radio Frequency (RF) theory as it relates to Wireless LANs
Discuss the Wireless Network design issues regarding
Coverage areas
Antenna theory and operation
Site Survey procedures
Describe some sources of interference to be considered when deploying outdoor Wireless LANs
Access Point Installation and Configuration
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Describe the steps performed during the installation and deployment of outdoor Wireless LANs
Explain the use of Bridge Group Names as a technique to control mesh network device associations
Discuss the functionality relating to the following configurable parameters
Radio Roles
Backhaul Interface
Channel Assignments
Describe the Zero Touch configuration feature as it relates to the deployment of outdoor Wireless
LANs
Explain some available methods for verifying connectivity and performance in an outdoor mesh
network
Verification and Troubleshooting
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Explain the methodology used to diagnose problems in mesh networks
Describe the key CLI commands used for verification and troubleshooting (i.e. show, debug)
List some key screens available in the GUI that are used to verify proper operation in a mesh
network
Describe the location of key screens and critical fields in the GUI used to isolate and resolve
problems in a mesh network
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Dates
Fourth Quarter 2006. Please contact [email protected]
IPv6: Evolution, implementation, interconnection and transition from IPv4 to IPv6
Course duration
3 days
Prerequisites
Basic understanding of TCP/IP and DNS
Target audience
Network engineers
Objectives
Understand IPv6 and plan the installation, interconnection and migration from IPv4 to
IPv6
Contents
Protocols
– IPv6 and its extensions
– ICMPv6, MLDv2 and modifications to TCP / UDP
Addressing plans
– Unicast addresses
– Multicast and anycast addresses
Auto-Configuration
– Neighbor and Router Discovery
– Path MTU Discovery
DNS support
– Configuration of DNS for IPv6
– Stateful autoconfiguration : DHCPv6
Mobile IP
– Home address and Binding Updates
– Operations of mobile node, its correspondents and its home agent
IP Security
– Authentication and Security Associations
– Key management
IPv6: State of the art and recent developments
– Test networks, pre-operational and commercial networks
– Current state of IETF RFCs
Transmission Media
– IEEE 802.3, Ethernet and Wi-Fi
– Point to point links and tunnels
Migration IPv4 to IPv6
– Modifications of applications
- Transition mecanisms
Dates
17-19 October 2006 - Sophia Antipolis
28-30 November 2006 - Sophia Antipolis
9-11 January 2007 - Aix-Marseille
IP Convergence Essentials
Durée
3 jours + 1 jour sur la Qualité de Service (optionnel)
Pré-requis
Connaissances fondamentales sur les réseaux
Participants
Décideurs des petites et moyennes entreprises, Techniciens, Ingénieurs et Consultants
Objectifs
Comprendre la mise en oeuvre des services voix, images et données sur les réseaux locaux, avec ou sans
fil, interconnectés par Internet; comprendre les mécanismes de sécurité et les contraintes de qualité de
service (QoS).
Contenu
Wi-Fi
Réseaux locaux sans fil
Déploiement à l'intérieur et à l'extérieur des locaux (Hotspots et Hotzones)
Mesh networks (Réseaux maillés sans fil)
Contrôle automatique des canaux radio et de la puissance
Gestion des réseaux locaux sans fil (WLAN)
Démo: Cisco WLAN controllers et WCS, Wireless Control System
Voix sur IP (VoIP)
ADSL et téléphonie IP
Voix sur réseaux locaux avec ou sans fil
Protocoles de transport RTP, RTCP et RTSP
Protocoles de signalisation (H323, SIP, MGCP)
Exemples Skype, Wengo, FON
Solutions intégrées Terra Virtual, e-NeoLab
Démo: Terra Virtual, e-NeoLab et/ou Cisco 7920 IP phones
Sécurité
Authentification des utilisateurs; authentification, contrôle d'intégrité et confidentialité des messages
Mécanismes de sécurité (basés sur 802.1x, WPA, WPA2, etc.)
Détection et neutralisation des intrus
Détection des attaques par le réseau
Localisation des clients Wi-Fi, des étiquettes RFID actives et des intrus
Démo: Microsoft IAS (Internet Authentication Server) et Cisco WCS
Qualité de Service (Qos) (optionnel)
Analyse des besoins
Techniques pour améliorer la qualité de service
Présentation de l'architecture Integrated Services (IntServ)
Le protocole RSVP
Présentation de l'architecture Differentiated Services (DiffServ)
Classification et marquage
Les valeurs DSCP
Multiprotocol Label Switching (MPLS)
Dates
14-16 novembre et 17 novembre (option QoS) 2006 - Sophia Antipolis
12-14 décembre et 15 décembre (option QoS) 2006 - Sophia Antipolis
23-25 janvier et 26 janvier (option QoS) 2007 - Aix-Marseille