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WLAN Terminology and Technology

WLAN Terminology and Technology. Active and passive scanning Power saving operation Data rates and throughput Dynamic rate and switching Authentication and association The distribution system and roaming Infrastructure and ad hoc modes BSSID, SSID, BSS, ESS Protection mechanisms.

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WLAN Terminology and Technology

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  1. WLAN Terminology and Technology • Active and passive scanning • Power saving operation • Data rates and throughput • Dynamic rate and switching • Authentication and association • The distribution system and roaming • Infrastructure and ad hoc modes • BSSID, SSID, BSS, ESS • Protection mechanisms

  2. Exam Essentials • Understand the different operation modes for IEE 802.11 wireless networks • Be familiar with the different service sets used with WLANs • Indentify the terminology used with IEEE 802.11. WLANs • Know the process devices use to join a WLAN • Understand the differences between distribution systems as well as data transfer • Indentify the power save capabilities of IEEE 802.11 WLANs • Know the various protection mechanisms available for both IEEE 802.11g and 802.11n WLANs

  3. WLAN Modes of Operation • Independent basic service set (IBSS) • Basic service set (BSS) • Extended service set (ESS)

  4. Independent basic service set (IBSS) • No access point • Independent or autonomous devices (clients) • Three parameters for IBSS participation • SSID • RF Channel • Security configuration

  5. Service Set Identifier (SSID) • Name of the service set used to identify the WLAN and for device segmentation

  6. Radio Frequency (RF) Channel • Channel specified on the client and/or AP configuration over which devices will communicate • ISM • channels 1-11 • UNNII • channels 1-4

  7. IBSS Security • Configurable and is not mandated by devices, AP or other WLAN hardware. • IBSS has no inherent security

  8. Advantages and Disadvantages of IBSS • Easy to configure • Inexpensive to deploy • Limited range • No centralized admin • Not scalable • Difficult to secure

  9. Basic Service Set (BSS) • Foundation of distributive WLANs • Access point (AP) • Client devices • Similar parameters to IBSS • SSID • RF Channel • Security configuration

  10. Advantages and Disadvantages of BSS • Flexible in various situations, homes, SOHO, small enterprises • Scalable • Centralized admin • Security parameters • Additional hardware costs (APs etc.) • Require site survey • Must connect to a larger infrastructure • Technical expertise

  11. Extended Service Set (ESS) • One or more connected BSS • Requires a layer two or layer three devices for connectivity

  12. Connecting to a WLAN • Frame types • Management frames • Beacon, probe request, authentication, association request, association response • Control frames • RTS (request to send), CTS (clear to send), ACK • Data frames • Carries the payload

  13. Connecting to a WLAN • Passive scanning • 1st part of the discovery phase of WLAN • Listening for AP SSIDs • Active scanning • 2nd part of the discovery phase • Device finds a network and sends out a probe request “May I join your WLAN?”

  14. Connecting to a WLAN • Authentication • Open system authentication • May I join your WLAN – Sure come on in • Shared key authentication • May I join your WLAN – Sure, what’s the secret password • Association • If authentication is correct then free association with the network is allowed.

  15. Connecting to a WLAN • Deauthentication • Authentication no longer valid • Logging off • Roaming to a different BSS • Disassociation • When an association is terminated

  16. Distribution System • Connection of one or more BSS • APs • Wired • Wireless

  17. Data Rates • Established rate of data exchanged between devices • Subjective

  18. Data Rates

  19. Throughput • Actual rate of data exchanged • Dependent on • Spread spectrum or technology (standard/amendment) • RF interference • Number of simultaneous users connected to the AP

  20. Dynamic Rate Switching • A.K.A dynamic rate selection • Allows a device to adapt to a certain BSS configuration

  21. WLAN Roaming • Moving from one BSS to another • Device needs to decide which BSS to access if two or more are available • Criteria • Signal strength • Signal to noise ratio • Error rate • Number of currently associated devices

  22. Power Saving Options • Many WLAN devices are portable and utilize DC batteries • Device configurable • E.g. Windows XP Advanced Power Management (APM)

  23. Power Saving Options • Active Mode (AM) • Not using batteries • Power Save (PS) Mode • Doze or enter a low power state • Activated manually or through a listening state • Automatic Power Save Delivery (ASPD) • Awakened by a trigger frame to receive data

  24. Protection Mechanisms • Compatibility standards between newer/faster devices and slower/legacy systems • Extended rate physical (ERP) protection • High throughput (HT) protection

  25. Extended Rate Physical (ERP) Protection • 802.11b only mode • DSSS and HR/DSSS • 1, 2, 5.5 and 11 Mbps • 802.11g only mode • ERP-OFDM • 6, 9, 12, 18, 24, 36, 48, and 54 Mbps • 802.11b/g mixed mode • DSSS, HR/DSSS and ERP-OFDM • 1, 2, 5.5 and 11 Mbps • 6, 9, 12, 18, 24, 36, 48, and 54 Mbps

  26. High Throughput (HT) Protection • 802.11n devices operate in ISM and UNII • Mode 0 • Greenfield - 802.11n devices only • Mode 1 • HT Non-member Protection Mode – switches when 802.11a/b/g device is detected • Mode 2 • HT 20 MHz Protection Mode – 802.11n device only, that can use 20 MHz or 40 MHz wide channels • Mode 3 • HT Mixed Mode – used if one of more non-HT devices are associated to the BSS.

  27. Protection Mechanisms • Two new protection standards • Dual CTS – layer 2 protection between HT and non-HT devices • PCO – alternates between 20 MHz and 40 MHz versus one or the other

  28. Exam Essentials • Understand the different operation modes for IEE 802.11 wireless networks • Be familiar with the different service sets used with WLANs • Indentify the terminology used with IEEE 802.11. WLANs • Know the process devices use to join a WLAN • Understand the differences between distribution systems as well as data transfer • Indentify the power save capabilities of IEEE 802.11 WLANs • Know the various protection mechanisms available for both IEEE 802.11g and 802.11n WLANs

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