Wimax
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presented by presented by S.SARANYA S.SARANYA TEC TEC
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Transcript of Wimax
presented presented by by
S.SARANYAS.SARANYATEC TEC
IEEE 802.15 -Bluetooth
WAN
MAN
LAN
PAN ETSI HiperPAN
IEEE 802.11 -WirelessLAN
ETSI HiperLAN
IEEE 802.16 -WirelessMAN
ETSI HiperMAN & HIPERACCESS
IEEE 802.20(proposed)
3GPP, EDGE (GSM)
IEEE 802.15 -Bluetooth
WAN
MAN
LAN
PAN ETSI HiperPAN
IEEE 802.11 -WirelessLAN
ETSI HiperLAN
IEEE 802.16 -WirelessMAN
ETSI HiperMAN & HIPERACCESS
IEEE 802.20(proposed)
3GPP, EDGE (GSM)
Wireless PANs (Bluetooth – IEEE Wireless PANs (Bluetooth – IEEE 802.15)802.15) very low range.very low range. wireless connection to printers etc…wireless connection to printers etc…
Wireless LANs (Wi-Fi – IEEE Wireless LANs (Wi-Fi – IEEE 802.11) 802.11) Infrastructure as well as ad-Infrastructure as well as ad-hoc networks possible home/office hoc networks possible home/office networking.networking.
Wireless MANs (WiMAX-802.16)Wireless MANs (WiMAX-802.16) Similar to cellular networks Similar to cellular networks
traditional base station infrastructure system.traditional base station infrastructure system.
wi-Maxwi-Max wi-Max Architecturewi-Max Architecture wi-Max Rangewi-Max Range IEEE 802.16 standardsIEEE 802.16 standards Wi-Max spectrumWi-Max spectrum BandsBands Some Wireless StandardsSome Wireless Standards Usage AreasUsage Areas ConclusionConclusion
Wi-MaxWi-Max (Worldwide Interoperability for Microwave (Worldwide Interoperability for Microwave Access) is a wireless broadband technology.Access) is a wireless broadband technology.
Which supports point to multi-point (Which supports point to multi-point (PMPPMP) ) broadband wireless access.broadband wireless access.
Wi-Max Wi-Max is basically a new shorthand term for IEEE is basically a new shorthand term for IEEE Standard 802.16 . Standard 802.16 .
The IEEE wireless standard has a range of up to The IEEE wireless standard has a range of up to 50 kilometers50 kilometers. .
Can deliver broadband at around Can deliver broadband at around 75 megabits 75 megabits per second. per second.
802.16.1802.16.1 (10-66 GHz, line-of-sight, up to 134Mbit/s) (10-66 GHz, line-of-sight, up to 134Mbit/s)
802.16.2802.16.2(minimizing interference between coexisting (minimizing interference between coexisting WMANs)WMANs)
802.16a802.16a (2-11 Ghz, Mesh, non-line-of-sight) (2-11 Ghz, Mesh, non-line-of-sight)
802.16b 802.16b (5-6 Ghz)(5-6 Ghz)
802.16c 802.16c (detailed system profiles)(detailed system profiles)
P802.16eP802.16e (Mobile Wireless MAN) (Mobile Wireless MAN)
The 802.16The 802.16, Wi-Max , Wi-Max standard was published in standard was published in March 2002 and provided updated information March 2002 and provided updated information on the Metropolitan Area Network on the Metropolitan Area Network (MAN) (MAN) technology. technology.
The extension given in the March publication, The extension given in the March publication, extended the line-of-sight fixed wireless MAN extended the line-of-sight fixed wireless MAN standard, focused solely on a spectrum from standard, focused solely on a spectrum from 10 10 GHz to 60+ GHz.GHz to 60+ GHz.
This extension provides for non-line of sight This extension provides for non-line of sight access in low frequency bands like 2 - 11 GHz. access in low frequency bands like 2 - 11 GHz.
These bands are sometimes unlicensed. These bands are sometimes unlicensed.
This also boosts the maximum distance from This also boosts the maximum distance from 31 to 50 miles and supports PMP (point to 31 to 50 miles and supports PMP (point to multipoint) and mesh technologiesmultipoint) and mesh technologies
Bluetooth Bluetooth
DECT (Digital Enhanced DECT (Digital Enhanced Cordless Cordless Telecommunications) Telecommunications)
DSRC (Dedicated Short DSRC (Dedicated Short Range Communications)Range Communications)
HIPERLAN HIPERLAN
HIPERMAN HIPERMAN
IEEE 802.11 IEEE 802.11
IrDA IrDA
RFID (Radio Frequency RFID (Radio Frequency Identification) Identification)
WiFi WiFi
WiMAX WiMAX
xMax xMax
ZigBeeZigBee
Connection orientedConnection oriented Connection ID (CID), Service FlowsConnection ID (CID), Service Flows
Channel access: decided by BSChannel access: decided by BS UL-MAPUL-MAP
Defines uplink channel accessDefines uplink channel access Defines uplink data burst profilesDefines uplink data burst profiles
DL-MAPDL-MAP Defines downlink data burst profilesDefines downlink data burst profiles
UL-MAP and DL-MAP UL-MAP and DL-MAP are both transmitted in the are both transmitted in the beginning of each downlink subframe.beginning of each downlink subframe.
A Regular Wi-fi Uses Contention accessA Regular Wi-fi Uses Contention access Which means competing for AP.Which means competing for AP.
Wi-max uses scheduling MAC Wi-max uses scheduling MAC Much Better for QOS required services EX: VOIP , Much Better for QOS required services EX: VOIP ,
IPTV.IPTV.
Mesh NetworkingMesh Networking Subscriber station and Base station at same time.Subscriber station and Base station at same time.
OFDMA OFDMA
Originally Working 10 to 66 GHz FDD or Originally Working 10 to 66 GHz FDD or TDD. TDD.
Now supporting 2 to 11 GHz with 802.11a Now supporting 2 to 11 GHz with 802.11a OFDMA with TDMA access.OFDMA with TDMA access.
Broadband Internet Access.Broadband Internet Access.
VoIP , IPTV services.VoIP , IPTV services.
Cellular Phones.Cellular Phones.
Framework for the evolution of wireless broadband.
Everything will be coordinated with Wi-Max.
Standard for Wi-MAX mobile solution not finalized yet.
Test network in Skelleftea shows promising results.
According to analysts Wi-MAX will take significant market shares.
