Ethernet, Peap) and, With – USRobotics Instant802 APSDK User Manual
Page 309: Edcf, In an, E also
Professional Access Point
Administrator Guide
Glossary - 309
E
EAP
The Extensible Authentication Protocol (EAP) is an authentication protocol that supports multiple methods,
such as token cards, Kerberos, one-time passwords, certificates, public key authentication, and smart
cards.
Variations on EAP include EAP Cisco Wireless (LEAP), Protected EAP (PEAP), EAP-TLS, and EAP
Tunnelled TLS (EAP-TTLS).
EDCF
Enhanced Distribution Control Function is an extension of
. EDCF, a component of the IEEE Wireless
Multimedia (WMM) standard, provides prioritized access to the wireless medium
ESS
An extended service set (ESS) is an
with multiple
access points, forming a single subnetwork that can support more clients than a basic service set (
Each access point supports a number of wireless stations, providing broader wireless coverage for a large
space, for example, an office.
Ethernet
Ethernet is a local-area network (
) architecture supporting data transfer rates of 10 Mbps to 1 Gbps.
The Ethernet specification is the basis for the
standard, which specifies the physical and lower
software layers. It uses the
access method to handle simultaneous demands.
Ethernet supports data rates of 10 Mbps, Fast Ethernet supports 100 Mbps, and Gigabit Ethernet supports
1 Gbps. Its cables are classified as "XbaseY", where X is the data rate in Mbps and Y is the category of
cabling. The original cable was 10base5 (Thicknet or "Yellow Cable"). Some others are 10base2
(Cheapernet), 10baseT (Twisted Pair), and 100baseT (Fast Ethernet). The latter two are commonly
supplied using CAT5 cabling with RJ-45 connectors. There is also 1000baseT (Gigabit Ethernet).
ERP
The Extended Rate Protocol refers to the protocol used by
stations (over 20 Mbps
transmission rates at 2.4GHz) when paired with Orthogonal Frequency Division Multiplexing (OFDM). Built
into ERP and the IEEE
standard is a scheme for effective interoperability of IEEE 802.11g stations
with IEEE 802.11b nodes on the same channel.
Legacy IEEE 802.11b devices cannot detect the ERP-OFDM signals used by IEEE 802.11g stations, and
this can result in collisions between data frames from IEEE 802.11b and IEEE 802.11g stations.
If there is a mix of 802.11b and 802.11g nodes on the same channel, the IEEE 802.11g stations detect this
via an ERP flag on the access point and enable request to send (
) and clear to send (
) protection
before sending data.
protocol.