Security Options
Though security is a concern for some clients due to unreliable system integrators and the misinformation is to be dispelled regarding the wireless security.
Wireless Security Options
MAC Filtering
Media Access Control (MAC) filtering prevents users with unknown MAC addresses from joining the network.
SSID Hiding
The Service Set Identifier (SSID) on an access point (AP) is simply a name associated with that AP. When searching for wireless network with windows, it will come up on a list.
Wired Equivalent Privacy (WEP)
WEP was a protocol developed for wireless networks. Encrypts the data stream at 64, 128, or 256 bits.
Lightweight Extensible Authentication Protocol (LEAP)
LEAP is proprietary security mechanism used by CISCO and the protocol is based on a modified version of MS CHAPv2.
EXTENDED WARRANTY
TALENT warranty and maintain the solutions implemented.
TALENT Troubleshoot on free of cost first one year of implementation, unless any physical damages on equipment for customer reasons.
TALENT offer extended warranty or troubleshoot as per the agreed charges/signed TALENT CarePAK Agreement
MIMO (multiple-input multiple-output)
digg_url = 'http://www.networkworld.com/community/node/20370'; digg_title = "MIMO (multiple-input multiple-output)"; digg_bodytext = "A technique for boosting wireless bandwidth and range by taking advantage of multiplexing.\r\n\r\nMultiple-input multiple-output (MIMO) wireless uses different waveforms on typically two, but sometimes three or more transmitting antennas inputting to the channel carrying radio waves from Point A to Point B. Multiple antennas and radios (typically, two or three) also are applied to the output of the radio channel at the receiver, along with a lot of signal processing, which ideally improves range and throughput compared with simpler or traditional radio designs operating under similar conditions.\r\n\r\nMIMO is at the heart of the 802.11n draft specification for 100Mbps wireless. \r\n\r"; digg_bgcolor = 'ffffff'; digg_skin = 'standard'; A technique for boosting wireless bandwidth and range by taking advantage of multiplexing.
Multiple-input multiple-output (
MIMO) wireless uses different waveforms on typically two, but sometimes three or more transmitting antennas inputting to the channel carrying radio waves from Point A to Point B. Multiple antennas and radios (typically, two or three) also are applied to the output of the radio channel at the receiver, along with a lot of signal processing, which ideally improves range and throughput compared with simpler or traditional radio designs operating under similar conditions.
MIMO is at the heart of the
802.11n draft specification for 100Mbps wireless.
MIMO is sometimes referred to as spatial multiplexing, because it users a third, spatial dimension - beyond frequency and time - as a carrier for information. The multiplicative effect of properly designed MIMO systems can be dramatic: As our tests show, the 100Mbps barrier (application-layer throughput) in wireless LANs has been broken. Indeed, the upcoming 802.11n standard will likely specify raw (physical layer) performance as high as 600Mbps via a 4-by-4 MIMO array.
