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WiMAX. By: Ankit Rakha MSE, CS JHU-'07. What is WiMAX ??. Think about how you access the Internet today…. 3 options !!. Broadband access Wi-Fi access Dial-up access.
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WiMAX By: Ankit Rakha MSE, CS JHU-'07
Broadband access • Wi-Fi access • Dial-up access
WiMAX or Worldwide Interoperability of Microwave Access, is a wireless Internet service designed to cover wide geographical areas serving large number of users at low cost. WiMAX is the synonym given to the IEEE 802.16 standard defining wide area wireless data networking .
Typical Network Ranges WAN IEEE 802.16e IMT-2000(3G) (Nationwide) Wide Area Network MAN IEEE 802.16-2004 ETSI HiperMAN/WiMAX (50 Km) Metropolitan Area Network LAN IEEE 802.11 (a,b,g) (150 m) PAN IEEE 802.15 Bluetooth (10m) Local Area Network Personal Area Network
A WiMAX system consists of two parts : • A Transmitter • A single WiMAX tower can provide coverage to a very large area – as big as 3,000 sq. miles • A Receiver • The receiver and antenna could be a small box or PCMCIA card or they could built into a laptop as the way Wi-Fi access is today.
WiMAX WiMAX WiMAX
HOW DOES IT WORK ? • WiMAX uses microwave radio technology to connect computers to the internet in place of wired connections such as DSL or cable modems. • It works very much like cell phone technology in that reasonable proximity to a base station is required to establish a data link to the Internet. • Users within 3 to 5 miles of the base station will be able to establish a link using NLOS technology with data rates as high as 75 Mbps. • Users up to 30 miles away from the base staion with an antenna mounted for LOS to the base station will be able to connect at data rates approaching 280 Mbps.
Forms of Wireless Service • NLOS (Non Line of Sight) • Wi-Fi sort of service • LOS ( Line of Sight)
WiMAX • Fixed WiMAX • (IEEE 802.16-2004) • Ex: ETSI HiperMAN • Optimized for Fixed and nomadic applications • in LOS and NLOS environment • 10-66 GHz licensed frequency bands (LOS) • Licensed and license-exempt sub 11 GHz bands (LOS & NLOS) • Mobile WiMAX • (IEEE 802.16e) • Ex: WiBro • Optimized for Portable and mobile applications in NLOS environment • Sub 6 GHz bands
Central Office, Network Management, VOIP Server etc. Customer Premise Equipment Traffic Aggregation PtP Wireless Backhaul Wireless PMP Access Base Station
IEEE 802.16 • Air Interface for Fixed Broadband Wireless Access System • MAC and PHY specifications for 10-66 GHZ (LOS) • One PHY: Single Carrier • Connection oriented, TDM/TDMA MAC, QOS, Privacy • IEEE 802.16 a • Amendment to 802.16, MAC Modifications and additional PHY Specifications for 2-11 Ghz (NLOS) • Three PHYs: OFDM, OFDMA, Single Carrier • Additional MAC functions: OFDM and OFDMA PHY support, Mesh topology support, ARQ • IEEE 802.16d • Combines both IEEE 802.16 and 802.16a • Some modifications to the MAC and PHY • IEEE 802.16e • Amendment to 802.16-2004 • MAC modifications for limited mobility
The different flavors of WiMAX 802.16 a 802.16 REVd 802.16 e • Limited Mobility • Applications • “Portable” Broadband access for consumers • Always Best Connected • CPE • PC Card • Fixed Outdoor • Applications • Indoor Broadband access for residential users • ( High Speed Internet, VoIP,…) • CPE • External box connected to PC with built-in antenna • Fixed Outdoor • Applications • E1/T1 service for enterprises • Backhaul for Hotspots • Limited residential Broadband access • CPE • External box connected to PC with outside antenna
A TYPICAL WiMAX AND WiLAN DEPLOYMENT Non-Line-of-sight, point-to-multipoint Or point-to-point backhaul : 802.16a Non-line-of-sight, Point-to-multipoint: 802.16a 802.11 Telco core network or Private (fiber) network Internet Backbone Access Point
WiMAX Point-To-Point backhaul WiMAX PTP backhaul ISP PoP Wi-Fi Hotspots
Point to Multipoint application WiMAX point-to-multipoint ISP PoP Wire line or Wireless backhaul WiMAX Base Station Homes with outdoor/indoor WiMAX receiver
WiMAX as the backbone of meshed networks WiMAX may enjoy a complementary relationship with Wi-Fi due to differences in the reach of each of the networks . WiMAX connections can be used to provide backhaul connections to Wi-Fi hotspots over longer distances. WiMAX could also play a key role in connecting Wi-Fi hotspots in a mesh-type network to quickly increase coverage and capacity. Wi-Fi WiMAX
Factors affecting WiMAX performance (throughput and range) • Frequency Band on which it is operating • Channel Bandwidth • Duplexing Scheme (TDD or FDD) • Modulation (BPSK, QPSK, 16-QAM or 64-QAM) and Code Rate • Antenna Types • Whether LOS or NLOS • Transmit Power • Receiver Sensitivity • The no. of users per base station sector.
Security Issue • Every WiMAX traffic is encrypted using DES (Data Encryption Standard) or • AES (Advanced Encryption Standard) for securing its transmission over the air. • The encryption keys are distributed from the BS to the SSs using PKM ( Privacy Key Management) protocol to ensure that only authorized SSs can receive the keys. • Every WiMAX user device is authenticated using a digital certificate or SIM ( Subscriber Identity Module). • This way, WiMAX keeps user traffic from eavesdropping and protects operator or service provider from becoming a victim of bandwidth theft by unauthorized users.
USES • 1) Connecting Wi-Fi hotspots with each other and to other parts of the internet. • 2) Providing a wireless alternative to cable and DSL for last km broadband access. • 3) Providing a high-speed mobile data and telecommunications services (4G). • 4) Providing a diverse source of Internet connectivity as a part of business continuity plan. • 5) Providing Nomadic connectivity.
What are the Advantages ? • A Single WiMAX main Station can serve hundreds of users. • Endpoints install within days instead of the weeks required for wired • connections. • Data rates as high as 280 Mbps and distances of 30 miles are possible. • Users can operate mobile within 3-5 miles of a base station at • data rates up to 75 Mbps. • No FCC radio licensing is required. • Less expensive than DSL or coaxial cable. What are the disadvantages ? • Line-of-Sight is required for long distance (5-30 mile) connections. • Heavy rains can disrupt the service. • Other wireless electronics in the vicinity can interfere with the WiMAX • connection and cause a reduction in data throughput or even a total disconnect.
Advantages over Wi-Fi • The WiMAX specification provides symmetrical bandwidth over many kilometers • and range with stronger encryption and typically less interference. Wi-Fi is short • range has WEP or WPA encryption and suffers from interference as in • metropolitan areas there are many users. • The fastest Wi-Fi connection can transmit up to 54 Megabits per second under optimal conditions. WiMAX can handle up to 70 Megabits per second. • The biggest difference isn’t speed; its distance. WiMAX outdistances Wi-Fi by miles. Analysis WiMAX is not competing other, it is wireless cable replacement technology, which competes with wired operators.
Future developments and IEEE 802.20 MBWA is a technology developed by IEEE 802.20. It is the future technology standard for true wireless broadband or 4G and so far iBurst is the only pre-selected solution with over a dozen commercial deployments worldwide.