Domestic appliance robotics avatars, radio-frequency tags, greater reliability, via email, screen fridge, touch sensitive panel built-in mobile phone, to surf the Web. 


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Domestic appliance robotics avatars, radio-frequency tags, greater reliability, via email, screen fridge, touch sensitive panel built-in mobile phone, to surf the Web.



1. You control s…………. the W…………. to find a new recipe.

2. b……….. in ……………. W…………….. ph is designed for convenience.

3. A fridge can have a…….. s………….. f………….. to inform the user what he has in a stock.

4. Web-connected d………………. a………….. will be able to talk to each other.

5. Barcodes in the packaging of groceries will soon be replaced with r………….. f…………. t………………

6. Radio-frequency tags can be read with g………………….. r…………….

7. R……………….. helps human beings to do hazardous and tiring work.

8. One of the resent developments in IT is a t………………….. s………………….. p…………………

9. A………………. is a graphical icon that represents a real person in a cyberspace system.

 

VII. Прочтите и переведите словосочетания:


artificial brain implants;

domestic appliances;

barcodes;

radio-frequency tags;

to surf the Web;

surveillance camera;

to download a program;

to control remotely;

to be unlikely;

dynamic data base;

information technology.


VIII. Прочитайте информацию о новых разработках информационных технологий с 2000 года. Какие из них были уже введены и какие вскоре появятся:

1. 2000 – Electronic newspaper.

2. 2000 – Visual computer personalities on screens.

3. 2002 – Multiple channels of > 100 Gigabits per second on single fibro.

4. 2003 – Hydraulic chair for VR games.

5. 2005 – Personal wearable health monitor.

6. 2005 – Intranets dominate over Internet.

7. 2006 - Fire fighting robots that can find and rescue people.

8. 2007 – Terabits per second on optical fibers over distance.

9. 2010 – Robotic pets.

10. 2010 – Robotics devices within blood vessels.

11. 2025 – Artificial flood vessels.

 

IX. Прочитайте тексты о последних разработках информационных технологий и сделайте краткие записи по следующим темам:

a. Domestic appliances;

b. Avatars;

c. Robotics.

License to chill

Barcodes in the packaging of groceries will soon be replaces with radio-frequency tags that can be read at a distance and with greater reliability. As well as indicating what the product is, the data in the tags will include additional information such as the ‘best before’ date and even nutritional data. Now, imagine that a fridge could read these tags and keep track of the items placed there.

If an item is about to exceed its ‘use by’ date, the fridge tells you, and you can either use it or throw or out. Fancy something different for dinner? No problem, ask the fridge to suggest some menus based on the ingredients it knows you have in stock. Or tell the fridge the menu you require and it will provide you with a shopping list of the items you don’t have or order the items via email. This is the Screen fridge from Electrolux.

But why ‘Screen fridge’? On the door is a touch-sensitive panel or screen that provides a means of communicating with the users. For many households, life revolves around the kitchen. This is the assumption Electrolux made in designing the Screen fridge. The same screen is a messaging centre. Since the fridge is equipped with a microphone, speaker and video-camera, you’re not limited to textual information. The fridge is connected to the Internet so it can be used to send and receive email or you could surf the Web to find a new recipe.

Many people gave a TV in the kitchen, but if you already have a screen on the fridge, why clutter up the work surface with a TV? Call the Screen fridge’s TV mode and watch your favourite program on the fridge. The Screen fridge can be interfaced to a surveillance camera to check out visitors or to keep an eye on the children.

Finally, the Screen fridge can perform some of the household management tasks normally associated with a PC. For example, it has a diary, address pad and a notepad.

 

Talking to the washing

A washing machine that can communicate with the Internet using is own built-in mobile phone has been launched by Ariston.

The margherita2000.com machine will be able to send breakdown reports for repair and download new washing cycles from its own website. And the householder will be able to control the washing cycle remotely using a mobile phone or by logging on to the machine's own website.

But the importance of the machine is that it is the first of a line-up of Web-connected domestic appliances that will be able to talk to each other using a new open communication system called WRAP - Web-Ready Appliances Protocol.

Ariston will be launching a dishwasher, fridge and oven using WRAP early next year according to Francesco Caio, head of Ariston's parent company Merloni Elettrodomestici. Eventually it will be joined by Leonardo, a touch-screen kitchen computer. All the machines will communicate through the house's ring main, and to the Web through the washing machine's mobile phone.

Mr Caio believes he can sell 30 to 50,000 washing machines each year in Europe. But he must leap some big hurdles before the system can become widely accepted. WRAP is a proprietary Merloni standard, and people are unlikely to buy if locked in to Ariston for other networked appliances. Caio claims the standard is open to other manufacturers to adopt but so far none have signed up, whereas the huge Japanese manufacturers are adopting rival systems. The main obstacle is the cost – the margherita2000.com will cost much more than a traditional washing machine.

 

Dawn of the cyberbabes

Stratumsoft are developing the first electronic virtual assistant, or EVA. If EVA’s live up to the developers' claims, they could provide the illusion of personal service without the cost. Call centres, online advertisers and Internet service providers are among the initial targets. Eighty per cent of call centre requests could, Stratum soft argues, be dealt with by an EVA. E-commerce is another application. 'The best experience you can have as a shopper is personal contact, and EVA is designed to give that', says Stratumsoft's director of marketing.

The technology behind EVA combines two global trends in website design. One, developed out of the computer animation and gaming industry, is the ability to give Web images the impression of three dimensions. The other is the use of dynamic database skills and artificial intelligence-style searching to retrieve information from data banks.

Each EVA can be programmed with information such as a product catalogue, answers to frequently asked questions or an online encyclopedia. It is also equipped with a search engine to interpret customer requests made in colloquial language. Queries are typed in and answered via on-screen text boxes.

If the EVA does not have an answer, it will interrogate the questioner, record the response, and add the answer to its database for future enquiries. EVA’s are not fully animated to imitate human features but they can be programmed to gesture and imitate different moods. An EVA в run via a Java applet - a small, self-contained program coded to download on to any type of personal computer rather than being transmitted over the Internet.

Ananova

Ananova is the world's first digital newsreader. She was created to front an Internet 24 hours a day news service by Digital Animations Group, a Scottish 3D digital entertainment company and PA New Media.

Mark Hird, Director of PA New Media said, ‘We have given her a full range of human characteristics after researching the personality most people want to read news and other information. Ananova has been programmed to deliver breaking news 24 hours a day via the Internet, and later on mobile phones, televisions and other digital devices’.

The Ananova character fronts a computer system which is constantly updated with news, sport, share prices, weather and other information. This is converted into speech while another program simultaneously creates real-time animated graphics. This ensures that the virtual newscaster can be on top of the news as it breaks, with very little delay at all. People using the service can also tailor their own news bulletins by using search words to hear the latest information on their chosen subjects.

Mr.Hird believes the invention will dramatically change the role of the traditions newscaster, 'In 20 years time we could be seeing that type of job being replaced by computer-generated images.' But not everyone agree: Professor Bill Scott said that people prefer people to teach them things and in a world where information was increasingly important, an established face was important in terms trust. 'You don't get that confidence with computer characters’.

 

The rise of the robots

Japan produced the first commercially available robotic pet, called Aibo, a small electronic dog that several owners on Aibonet.com describe as part of the family. Aibo is not alone. Dr Thomas Consi MIT has produced the 'robolobster' which is of imitating lobsters' abilities to sense chemicals in the water surrounding them. Researchers at Edinburgh's Mobile Robot Group have made the world's first cyber-cricket.

These machines are important because they demonstrate that simple processes can result in complex behaviours. The robots use 'neural nets', erred processors that have an input level associated with each processor. When an input signal exceeds a certain value, the processor 'fires' a signal processors as output. Because neural nets can recognize patterns in data, they can be ‘trained’ with samples of data which are then revised to improve the response.

The most important crossover, however, is not between animal and robot but between man and machine. Quadriplegics and paraplegics have been testing computer connections for some time to bypass injured nerves, but Professor Kevin Warwick, head of the Department of Cybernetics at the University of Reading, is currently conducting experiments which could lead to more of us becoming cyborgs.

Professor Warwick has previously had a chip fitted into his arm which could activate sensors in doors and computers as he approached. He will soon have another transponder surgically implanted in his arm to record electrical signals controlling his movements, which can be played back so that he is then controlled by a prerecorded self. He predicts that such a technology could, one day, enable us to interact with machines in a completely different way. For example, we could soon be driving cars without steering wheels.

 

Sporting robots

Each ear teams take part in an international football competition. The teams are organised into five leagues and the prize is a cup. Not just any cup, but the Robocup, for the players are all robots. They don't play on turf but the objective is the same, to hit a ball into a goal. The aim behind the Robocup is to promote the development of robots which can work together. Football is a good test of co-operation for any team and the robots are no exception. Although robot footballers are poor competition for a human team, each year their performance gets better and each the standards expected are raised so that competitors must constantly develop better hardware and software.

The top league is the Sony legged robot division. They use modified versions of the well-known Sony robodog AIBO. A humanoid league will start as soon as there are sufficient two-legged players. The organiser of the Robocup is confident in the future of robotics, 'By mid-21st century, a team of fully autonomous humanoid soccer players will win a soccer game, complying with the official rules of FIFA, against the winner of the most recent World Cup.'

Other sporting events for robots exist. For example, The British Association for the Advancement of Science organises a two-a-side event called Robot Volley Ball. The players' task is simply to return a ball within 60 seconds of its being served. The objective again, is to promote the development of robots which can work co­operatively. The advantages of having robots which can tackle a range of tasks together rather than constructing single expensive robots designed for one task only are obvious.

 

X. Обсудите информацию в группах. Распределите роли:

1). The Speaker (Using only his notes).

2). The reporter (listens carefully and reports back to the speaker).

3). The judge (listens carefully to both speaker and Reporter and points out any mistakes).

 

XI. Прочитайте информацию о модальном глаголе can и его эквиваленте be able to; выполните упражнение, вставляя правильные формы глагола.

Study these ways to describe ability:

1. Swarming robots can work together to perform searches.

2. Washing machines will be able to report any breakdowns for repair.

3. Imagine being able to send music files to your MP3 player without a wire connection.

4. Professor Warwick had a chip fitted into his arm which could activate sensors in doors and computers as he approached.

5. Marconi was able to send a radio signal from Britain to Newfoundland.

We use can and be able to to describe ability in the present but can is more common. We use could for general abilities in the past but was/were able to describe an ability on a specific occasion. This table summarises their uses:

 

Ability

___________________________________________________________

Present can be able to

_____________________________________________________________

future X will be able to

_____________________________________________________________

present perfect X has/have been able to

_____________________________________________________________

-ing form X____________ being able to

_____________________________________________________________

past (specific action) X was/were able to

_____________________________________________________________

past (general and with

verbs of sensation) could X

 

For past negatives and questions both verbs are possible. For example:

Early computers could not/were not able to operate at high speeds.

Could they/were they able to store much data?

Imagine..................................... 1 open doors and switch on computers as you approach them. Professor Warwick…………..2 because he had an electronic chip fitted into his arm for a month. He…………....3 demonstrate to the press how computers would greet him with, 'Good morning, Professor Warwick' as he walked past. Next he wants to record the signals from his brain to his arm to see if he.…........ 4 program a computer to operate his arm. In the long term, this may help people who………...5 use their limbs. His wife too will have a chip implanted. They hope……….6 feed messages into each other's brains. According to the Professor, one day we……….7 communicate directly with machines. If he is right, we…………..8 drive a car from the passenger seat and we…………………9 operate a computer without using a mouse or keyboard. However, there is also the alarming prospect that someone………………10 hack into your brain.



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