Information about robots and their history

Information about robots and their history Two years ago, Chrysler completely dismantled its Windsor, Ontario auto assembly plant and installed a brand new plant in the building within six weeks.

Information about robots and their history This is a marvel of engineering.

When it was time to go to work, a whole new team of employees walked into the assembly line. The opening day saw a team of 150 industrial robots.

Industrial robots look nothing like the robots in science fiction books and movies.

They don’t act like the evil Daleks or the nasty C-3P0. The industrial robots that toiled on Chrysler’s production lines, with their plump bodies, long arched necks and small heads, were more like graceful swans or small brontosaurus.

An industrial robot is essentially a long robotic arm that can pick up objects by holding tools like a welding torch or an electric screwdriver or gripper.

The robots that work at Chrysler and many other modern factories are very good at performing highly specialized tasks—one robot can paint car parts, another can spot weld, and another can dump radioactive chemicals. Robots are ideal workers: they never get bored, they work 24/7. More importantly, they are flexible. By changing its programming, you can instruct the robot to perform different

As hard as you can, you can’t let your washing machine do the dishes. While some critics complain that robots are stealing much-needed jobs from humans, they’re only getting the most bleak, filthy and heartbreaking jobs.

The word robot is of Slavic origin and is related to the word for labor and worker. Robots first appeared in a play, Rosen’s Universal Robot, written by Czech playwright Karel Capek in 1920.

The show tells the story of an engineer who designs a humanoid machine without human weaknesses and becomes a hit.

However, when robots are used in warfare, they rebel against their human masters. Despite their boring jobs Information about robots and their history , industrial robots are still a joy to watch as they stretch their long necks, turn their heads, and roam around the work area.

As one author puts it, they satisfy “that vague desire to see the human body reflected in a machine, to see a living function transformed into a mechanical component”.

Also interesting are the numerous “personal” robots on the market today, the most popular of which is HERO,

Made by Heathkit. HERO looks like a plastic step stool on wheels, and can use one of his claw arms to lift objects and speak computer-generated speech. Then there’s Hubot, with a TV screen, flashlights and a computer keyboard that can be pulled out of its stomach.

Moving at 30 centimeters per second, Hubot can act as a burglar alarm and wake-up call. A few years ago, the trendy department store Neiman-Marcus sold a robotic pet called Wires.

If you boil all the feathers, HERO, Hubot, Wires, etc. from the hype. aluminum.

Really just great toys. You may dream of living like a lazy sultan surrounded by a bunch of metal girls, but any further automation in your home will include lights that automatically turn on when the natural light dims, or a rug with a built-in permanent vacuum system. Information about robots and their history

One of the earliest attempts at robotic design was a machine nicknamed Shakey by its inventor because of its very unstable feet.

Today, poor Shakey is a pile of rusted metal sitting in the corner of a California lab. Robotic engineers have realized that the bigger challenge is not putting nuts and bolts together, but developing a list of instructions — “software — to tell the robot what to do”.

Software does get more complex every year. The Canadian Meteorological Service now uses a program called METEO to translate weather reports from English into French.

There are computer programs that can diagnose medical conditions and locate valuable deposits. There are other computer programs that have won at chess, checkers, and Go.

So robots are definitely getting “smarter”. Windsor-based Diffracto is one of the world’s leading developers and manufacturers of image processing systems. A robot equipped with diffractive “eyes” can find a part, distinguish it from another, and even inspect it for defects.

Diffracto is currently developing a tomato sorter that will check for color and look for something other than red – ie. H. Immature – searched for tomatoes as they passed through his TV camera footage.

When an unripe tomato is found, the computer guides the robotic arm to pick out the pale fruit. Another diffraction system helps the space shuttle’s Canada arm pick up satellites from space.

The sensor looks for reflections off the satellite’s shiny surface and can determine the satellite’s position and velocity as it tumbles across the sky.

It tells astronauts when the satellite is in the correct position for the space arm to catch up. The biggest challenge facing robotics today is developing software that can help robots navigate a complex and chaotic world.

Seemingly challenging tasks like those performed by robots in factories are often relatively easy to program, while ordinary, everyday human activities—walking, reading a letter, planning shopping—prove to be very difficult. The day has not yet come when computer programs can do more than just highly specialized and well-ordered tasks.

The problem with installing robots indoors, for example, is that life there is as unpredictable as anywhere outside an assembly line. In a house, chairs move around, there’s always some clutter on the floor, and kids and pets are always running around.

Robots work efficiently on unchanged assembly lines, but they’re not good at improvising. Robots are disco, not jazz.

The irony of having a robot butler is that you have to keep your house perfectly tidy at all times and keep everything in the same place for your metal maid to move around.

Many computer scientists trying to make robots brighter are said to be working in the field of artificial intelligence. These researchers face a major dilemma because there is no real consensus on what intelligence is. Many in artificial intelligence believe that the human mind works according to formal rules.

They believe that the mind is clockwork and that human judgment is simple calculation. Once these formal rules of thinking are discovered, they can simply be applied to machines.

On the other hand, there are some critics of AI who claim that thinking is intuition, insight, inspiration. Human consciousness is a torrent, thoughts pouring out of the ground, or leaping into the air like fish.

Of course, this debate about intelligence and sanity has been going on for thousands of years. Maybe the results of “Robolution” will make us smarter.

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