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And what of the continuing perspective that WiMAX competes with Wi-Fi Most informed players argue that WiMAX is really a complementary technology to Wi-Fi, particularly in the metro arena. They see it as a broadband wireless alternative to cable or DSL and believe that certified WiMAX products will begin to appear in the enterprise market in mid-2005, while residential WiMAX products will provide solutions that are more cost-effective than fixed solutions in rural or greenfield areas.
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Ultra wideband (UWB) technology is designed for short-range, wireless personal area networks (WPANs). It is a short-range radio technology that will be used to transmit data between devices over distances of as much as 30 feet, and is defined as a radio technology that has a spectral operating range that occupies a bandwidth greater than 20 percent of the center frequency, or at least 500 MHz. A UWB device transmits billions of electromagnetic pulses across a broad range of frequencies that are collectively several GHz wide. The receiver translates the received pulses into data by listening for a recognizable pulse sequence sent by the transmitter. Like Wi-Fi, UWB systems use OFDM to operate over these extremely wide spectral components. The technology s combination of broad operating spectrum and lower power improves speed and reduces interference with other wireless systems. In the United States, the FCC has mandated that UWB radio transmissions be allowed to operate from 3.1 GHz up to 10.6 GHz, at limited transmit power. Consequently, UWB provides dramatic channel capacity at short range that limits interference. So what are the applications for UWB As we mentioned before, PANs are the primary intended application; imagine a home or small office network with the ability offer gigabits per second of bandwidth over distances that easily accommodate the entire office or home.
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ZigBee, also known as IEEE 802.15.4, offers a cost-effective, standardsbased wireless solution that specifically supports low data rates, low power consumption, security, and reliability. The name derives from a
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Downloaded from Digital Engineering Library @ McGraw-Hill (www.digitalengineeringlibrary.com) Copyright 2004 The McGraw-Hill Companies. All rights reserved. Any use is subject to the Terms of Use as given at the website.
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biological principal known as the ZigBee Principle, seen in honeybee hives. The colonial honeybee lives with a queen, a few male drones, and thousands of worker bees. The survival of the colony depends on a process of continuous communication of vital information among all members of the hive. The technique that honeybees use to communicate with each other is called the ZigBee Principle, which defines the zigzag dance pattern that the insects use to communicate critical information to each other. IEEE 802.15.4 was nicknamed ZigBee because it facilitates the ability of humans to emulate this survival behavior. ZigBee is designed to support such applications as home and environmental controls including lighting, automatic meter reading, telemetry for smoke and carbon monoxide detectors, HVAC, heating, security, drapery and shade controls, set top boxes, and specialized applications such as medical sensing and monitoring. To date, ZigBee is the only standard that supports the unique requirements of remote monitoring and control networks as well as sensory network applications. It is designed to support the broad deployment of wireless networks that have low cost, low power requirements. In fact, ZigBee is designed to run for years on a single battery. ZigBee products rely on the IEEE 802.15.4 physical radio standard, which operates globally in unlicensed bands at 2.4 GHz (global), 915 MHz (Americas) and 868 MHz (Europe). ZigBee supports data rates of 250 Kbs at 2.4 GHz (using 16 channels), 40 Kbs at 915 MHz (using ten channels) and 20 Kbs at 868 MHz (using a single channel). Transmission distances range from 10 to 100 meters, depending on power and environmental considerations. And while ZigBee is considered a nascent technology today, full-scale production is expected in 2005. Late-breaking news: In mid-December 2004 the ZigBee standard was ratified. Companies such as Figure 8 Wireless, Freescale, CompXs, Eaton, and Atmel long involved in the development of the technology are ahead of the competitive pack because of their ongoing involvement in the ZigBee Alliance during the specification-writing phase. These companies already have ZigBee-based products. Table 6-3 compares ZigBee to the most common alternate technologies.
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