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Bluetooth As portable computing devices get smarter and more capable, connectivity frustrations increase. This is where Bluetooth comes in. The brainchild of Ericsson, IBM, Intel, Nokia and Toshiba, Bluetooth is a microwave high-speed wireless link system that's designed to work with portable equipment. To that end, it's low power, very small and very low cost. It uses the same frequencies as existing radio LANs (and, incidentally, microwave ovens) to create a secure 1 Mbit/s link between devices within 10m of each other. These devices can be laptops, PDA’s, cell phones, wired telephone access points, even wristwatch devices, headphones, digital cameras and so on. With them, your notebook PC will be able to access your cellular phone - and thus the Internet -without your having to take the phone out of your pocket. Files can be exchanged and communications set up for voice and data between just about any device capable of handling the information. Bluetooth operates in the unlicensed SM (Industrial, Scientific and Medical) band at 2.45GHz, which is globally available for products. There's 89MHz of bandwidth allocated here, and since Bluetooth is very low power, it actually radiates less than most national and international standards allow non-transmitting devices to leak as part of their normal operation. This is key, as it allows die technology to operate without restriction on aircraft. As befits their status as radio frequency experts, Ericsson and Nokia developed the RF side of Bluetooth. The link works in a similar way to the IEEE 802.11 wireless networking system, with a packet-switching protocol based on fast-frequency hopping direct sequence spread spectrum. In other words, it constantly switches channel to avoid interference. It changes frequency 1,600 times a second through 79 frequency bands. It's expected that this will be so good at avoiding conflicting signals from other sources that the transmission power can be kept very low. Security is taken care of through the frequency hopping and 40-bit encryption. As the system uses radio, it can work through some barriers - briefcases, shirt pockets and desktops, for example — but it won't carry through office buildings. The power level of the transmitter can be varied, with feedback from the remote side of the link used to set the output to the lowest level commensurate with error-free operation. This saves power and increases the usable density of devices. The device can operate at up to 1mW (an optional power amplifier can increase this to 100mW) and the whole lot consumes between 8mA and 30mA at 2.7V. Various power-saving modes can be used when a device isn't transmitting, trading off speed of response for battery life. These work with current levels between 300pA and 60pA. Within the 10m radius of a unit, up to 10 independent full-speed piconets can operate, with bandwidth reduced proportionately if more than this are in use. Each can handle up to eight devices, and can be further subdivided into separate services: 432Kbit/s full-duplex data, 721/56Kbit/s asymmetric duplex, or 384Kbit/s third-generation GSM. Each channel can also support three 64Kbit/s full-duplex voice channels. An optional variation in modulation technique would double the basic data rate to 2Mbit/s. Power consumption and cost were very significant factors in Bluetooth's design, and it was decided not to make the system a fully-fledged LAN. As a result, there's no collision detection. All devices on a piconet are synchronized to a master device and are controlled by it to prevent simultaneous operation on the same frequency. Any device can be a master, and is elected dynamically when the link starts up. The standard is open and royalty-free to members of the Bluetooth special interest group. A. Найдите соответствия между терминами и утверждениями в таблицах А и В: Table A a. Bluetooth; b. SM band; с. RF; d. IEEE 802.11; e. Frequency hopping; f. Usable density; g. piconet. Table В
B. Определите True or False. a. Bluetooth is an expensive system, b. Bluetooth devices can communicate at a distance of up to 20m, с. The SM band is available throughout the world, d. Bluetooth has a very low radiation level, e. Each Bluetooth connection operates at one fixed frequency, f. Bluetooth signals will pass through walls of buildings, g. The master Bluetooth device is determined when a link is first established.
Domestic appliances www.elecrotrolux.co.uk www.merloni.com www.margherita.com www.aristonchannel.com www.zanussi.co.uk www.sony.co.uk Avatars www.pulse3d.com www.kiwilogic.com www.softimage.com www.ananova.com www.biovirtual.com www.i-dtv.com www.bt.com/talkzone www.digimask.com www.channel5.co.uk Robotics www.aibo-europe.com www.honda.co.ip/english/technology/robot www.robotbooks.com/Mitsubishi-robots.htm
UNIT IV THE FUTURE OF IT
convergence – конвергенция, сходимость a positive feedback loop – цикл продолжительной обратной связи hardware layer – уровень аппаратного обеспечения applications layer – прикладной уровень to catch up – соответствовать, уловить capability – мандат для доступа к объекту системы human brain – человеческий мозг human machine equivalence – машина, которая заменит человека ultimately – предельно, максимально offspring – отвод, новое поколение to push forward – продвигать access – доступ to sort smth out – выделять interface problem – проблемы интерфейса IT skill – способности информационных технологий smart database – информационная база данных virtual environments – виртуальная среда verification – контроль voice processing – обработка звука, голоса natural voice interface – интерфейс голоса voice synthesis – синтез звука (голоса) visualization technology – технология визуализации infrared distribution – распространение инфракрасных волн bandwidth communication – полоса частот head-up display – монитор, который располагается вверху retina – сетчатка, сетчатая оболочка (глаза) software wizardry - магия программных средств (о широких возможностях компьютерных программ) extinct – угасание, прекращение процесса nanotechnology – нанотехнология nanometers – нанометры nanocomputers – нанокомпьютеры nanotransistors – нанотранзисторы android – человекоподобный expert system – экспертные системы biometrics – биометрия ubiquitous computing – повсеместная компьютеризация pervasive computing – компьютеризация во всех сферах ubiquitous devices – повсеместные компьютерные устройства embedded system – встроенная система
electrical devices, integrated systems, a microscopic robot, pervasive computing, embedded systems, artificial, intelligence, Biometrics, smart devices. android, nanomaterials
fixed, integrated
Future trends А. Smaller and faster Nanotechnology, the science of creating and using materials or devices at molecular and atomic sizes, is going to represent a new technological revolution. These devices will fall in the range of 1 nanometer, which is equal to one billionth of a meter, to 100 nanometers (nm). Nanobots, robots formed from molecules or molecular components, will be used in medicine to control and diagnose diseases. For example, they will be injected and will move through blood vessels destroying cholesterol molecules or cancer. Nanocomputers, molecule-sized computers, may have the power of 100 workstations but only be the size of a grain of sand. There will be two main types of molecular computers:
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