WiMAX

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WiMAX, the Worldwide Interoperability for Microwave Access, enables the delivery of wireless broadband services over long distances. WiMAX is based upon the IEEE 802.16 standard, also called WirelessMAN, which was developed for non-line-of-sight (LoS) communication. WiMAX technology can provide connectivity in many ways, from point-to-point links to full mobile cellular type communication. The name WiMAX was created by the WiMAX forum which was formed in June 2001.The WiMAX forum describes WiMAX as "a standards-based technology enabling the delivery of last mile wireless broadband access as an alternative to cable and DSL." WiMAX technology has already been incorporated into notebook computers and PDAs to deliver high speed mobile Internet services.

Contents 1 Technical Information 2 Standards 2.1 IEEE 802.16e-2005 3 See also 4 References 5 External links

Technical Information

Standards

Current WiMAX technology called Mobile WiMAX, is based on the IEEE Std 802.16e-2005. This IEEE standard is an amendment of IEEE Std 802.16-2004, which means the actual standard is 802.16-2004 as amended by 802.16e-2005. Both standards need to be read together to understand them fully. IEEE Std 802.16-2004 addresses only fixed systems. It replaced IEEE Standards 802.16-2001, 802.16c-2002, and 802.16a-2003.

IEEE 802.16e-2005

IEEE 802.16e-2005 improves upon IEEE 802.16-2004 by:

• Adding support for mobility (soft and hard handover between base stations). This is seen as one of the most important aspects of 802.16e-2005, and is the very basis of 'Mobile WiMAX'.
• Scaling of the Fast Fourier Transform (FFT) to the channel bandwidth in order to keep the carrier spacing constant across different channel bandwidths (typically 1.25 MHz, 5 MHz, 10 MHz or 20 MHz). Constant carrier spacing results in a higher spectrum efficiency in wide channels, and a cost reduction in narrow channels. Also known as Scalable OFDMA (SOFDMA). Other bands not multiples of 1.25 MHz are defined in the standard, but because the allowed FFT subcarrier numbers are only 128, 512, 1024 and 2048, other frequency bands will not have exactly the same carrier spacing, which might not be optimal for implementations.
• Improving NLOS coverage by utilizing advanced antenna diversity schemes, and hybrid-Automatic Retransmission Request (HARQ)
• Improving capacity and coverage by introducing Adaptive Antenna Systems (AAS) and Multiple Input Multiple Output (MIMO) technology
• Increasing system gain by use of denser sub-channelization, thereby improving indoor penetration
• Introducing high-performance coding techniques such as Turbo Coding and Low-Density Parity Check (LDPC), enhancing security and NLOS performance
• Introducing downlink sub-channelization, allowing administrators to trade coverage for capacity or vice versa
• Enhanced Fast Fourier Transform algorithm can tolerate larger delay spreads, increasing resistance to multipath interference
• Adding an extra QoS class (enhanced real-time Polling Service) more appropriate for VoIP applications.

See also

References

External links

Goedvola 14:23, 13 April 2008 (EDT)