WLANs wireless access point (AP) instead of an Ethernet switch prescribes collision- avoidance instead of collision- detection each client uses a wireless adapter to gain through a wireless router or access point.
What required to access Wlan? SSID: (the name of network) broadcast: enabled, BEACON Probe after it the client is just in the network and for each service it should have access by any possible means. EBS (Extended Base Station) associasion security mode(TKIP,AES) should be the same on client and AP open access security AEP: just shared key
Association open access association security AEP: just shared key
Security security mode(TKIP,AES) same on client as AP security AEP: just shared key WAP – WAP2
CSMA/CA Access points distributed coordination function (DCF) called Carrier Sense Multiple Access with Collision Avoidance (CSMA/CA). devices must sense the medium for energy (RF stimulation above a certain threshold) and wait until the medium is free before sending.
CSMA/CA An access point receives data from a client station, sends an acknowledgement that received. assuming a collision not occurred and prevents a data retransmission by the client.
War driving "War driving" originally using a scanning device to find cellular phone numbers to exploit. Now means a laptop and an b/g client card looking for unsecured b/g system to exploit.
Modulation a/g support up to 54 Mb/s The data rates of different wireless LAN standards, are affected by Modulation. Direct Sequence Spread Spectrum (DSSS), cheaper Orthogonal Frequency Division Multiplexing (OFDM), faster n 248 Mb/s (MIMO)
5Ghz vs GHz band less interference smaller antennas. higher frequency band slightly poorer range than either b or g. Russia, do not permit the use of the 5 GHz band. 2.4 Ghz being interfered by other devices n uses multiple radios and antennae to establish multiple streams.
Standardization organizations ITU-R regulates allocation of RF bands. IEEE specifies how RF is modulated to carry information. Wi-Fi ensures that vendors make devices that are interoperable.
Applications surve site to show APs and the technologies Examples(Cisco Aeronet, Wireshark) Also hardware devices APs available(Fluke) Verifying network configurations Finding locations with poor coverage in a WLAN Detecting causes of wireless interference Detecting unauthorized ("rogue") access points
Locationing With specialized antennas the direction the transmission comes from can be determined. AoA-locationing is used in old school triangulation and radar systems.
Time of arrival locationing in GPS
Locationing Received signal strength RSS is especially important in indoor environments since GPS doesn’t reach there.
WiFi vs. WiMax as most people think WiMax is merely a more robust version of WiFi. both wireless broadband technologies But differ in the technical execution and business case
Some people describe the difference between WiFi and WiMAX as analogous difference between a cordless phone and a mobile phone. WiFi vs. WiMax
Unlicensed frequencies are not allowed to be as powerful as those operated with licenses; less power less distance. The problem of everybody shouting at once, even if it's surmountable in a classroom, would be catastrophic in a larger arena. Maybe. WiFi vs. WiMax
WiMax was to access the last line to the user as an alternative to cable and DSL. WiFi was developed for laptops and computers in a lan, but know they are used in different ways by diff devices. WiMax is better when it is used between WiFi nets, because it has more range and bandwidth.54 Mb and 30 M indoor.WiMax 70 megabits, 112 km.10 mb and 2 km.Wimax more bandwidth efficient. WiFi vs. WiMax
WiFi competing devices for the access to the AP, most near most bandwidth and interrupting other users who are farther. Wimax uses scheduling algorithm compete once after that the client will be given a slot by the base station. slot can enlarge and contract, but other subscriers cannot use it.stable on over load and over subscribtion.Algorithm allows base station to control QoS by balancing the time slot assignment among the applications need of the suscriber stations. WiFi vs. WiMax
WiFi uses 2.4 usualy 2400Ghz to 2487Ghz, each channel 22 but the intervals are 5.to the next higher channel. 13, 11 and 14 Europe,NA and JP. WiMax 10 to 66Ghz to 11GHz d (fixed Wimax and e (mobile WiMax) used diff OFDM opposed to d with 256 sub_carries. new e was developed with multiple antennas and multiple inpit output.Full mobility support.because of low frequency there are in building availability and improved range,because of less signal antenution. WiFi vs. WiMax
Symmetrical bandwidth, many kilometers (TDES and AES)encryption. WiFi less range and bandwidth WEP and WPA encryption.also intereference is a bottleneck. WiFi without direct linie of site, but e and d non line of site.because of multi path signals,like somehow n. WiFi vs. WiMax
WiMax has spectral limitation, in crowded areas, the bandwidth may not be sufficient for a big amount of clients. WiFi is free by any AP or Router but WiMax should be paid huge amounts of money to have a WiMax in a region. Since governments give the license for the WiMax frequencies. WiFi vs. WiMax
New licensed spectrum for WiMAX and other the valuable 700MHz frequencies currently used by analog over the air TV. WiFi vs. WiMax
UWB very low energy levels for short-range high-bandwidth communications by using a large portion of the radio spectrum.