10 Weird & Amazing Robot Facts

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1. Elektro, the world’s first humanoid robot, debuted in 1939. Built by Westinghouse, the seven-foot-tall walking machine “spoke” more than 700 words. Elektro later appeared in the 1960 B movie Sex Kittens Go to College.

2. The first known case of robot homicide occurred in 1981, when a robotic arm crushed a Japanese Kawasaki factory worker.

3.  Leonardo da Vinci drew up plans for an armored humanoid machine in 1495. Engineer Mark Rosheim has created a functional miniature version for NASA to help colonize Mars

4. Archytas of Tarentum, a pal of Plato’s, built a mechanical bird driven by a jet of steam or compressed air—arguably history’s first robot—in the fifth century B.C.

5. There are currently 4,000 robots serving in the US Military, including reconnaissance Talon bots that scout for roadside bombs in Iraq and PackBots that unsuccessfully poked around for Osama bin Laden’s hideout in Afghanistan.

6. Chris Melhuish of the Bristol Robotics Laboratory created robots that use bacteria-filled fuel cells to produce electricity from rotten apples and dead flies. The goal: robots that forage for their own food- essentially they wouldn’t need humans to survive.

7.  Mini Me: Australian researchers are trying to build a micro robot that would mimic the swim stroke used by E. coli bacteria. It would be injected into a patient so it could take a biopsy from the inside.

8. Cybernetics professor Kevin Warwick calls himself the world’s first cyborg, with computer chips implanted in his left arm. He can remotely operate doors, an artificial hand, and an electronic wheelchair.

9.  Winebot, built by Japan’s NEC System Technologies and Mie University, can ID scads of different wines, cheeses, and hors d’oeuvres . . . up to a point. It recently mistook a reporter’s hand for prosciutto. (In Winebot’s defense, that guy was a pig.)

10. Robotics expert Henrik Christensen predicts humans will be having sex with robots within four years. If you’re thinking, “Finally, no strings attached…” keep in mind that Hans Moravec, founder of Carnegie Mellon’s Robotics Institute, predicts that robots will emerge as their own species by 2040, with feelings and expectations. In other words, if you don’t call your robot fling the next morning, you’ll be disassembled.

History Of Robotics

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Technological advancement in the field of science has
paved the way to the invention of sophisticated machines, which could assist us
and simplify our work. One such valuable invention of humankind is robots. By
flipping through the pages of history, it is studied that people in the ancient
Greece and Egypt started using the raw form of robots, for accomplishing various
kinds of works. With the passing time, robotics saw further developments. The
design of robots became more and more sophisticated, with the increase in the
capacity of the machines to do work. In this article, we have gone back to the
history and traced some interesting information on the background and origin of
robotics - the science and technology of robots.

 

Interesting Information On Background & Origin
Of Robotics

 

The Beginning

The history of robotics can be traced back to the Ancient
Greeks. According to Greek mythology, the Greek God of fire and the forge -
Hephaestus - was served by mechanical robots. Another historical record suggests
that the origin of robotics is connected to ancient Egypt, where priests used
steam-activated mechanisms to open the doors of their temple. It was around 350
BC, when veteran Greek mathematician - Archytas - constructed a mechanical bird
named 'the Pigeon', a robot powered by steam, which could fly through the air.
This was the first recorded model airplane and a milestone in the history of
robotics.

 

Further Development

Ctesibus, a Greek inventor and physicist, made a
significant contribution in the field of robotics by designing water clocks with
movable figures on them. The invention proved to be a big breakthrough for the
already invented timepieces. Until then, Greeks used hour glasses to figure out
time. The hour glasses had to be turned over, after all the sand ran through it.
The invention of Ctesibus proved to be a bit different. The water clock measured
time due to the force of water falling through it, at a constant rate. Greeks
were impressed by this invention and used it for quite a long time.

 

Crucial Period

The period between 1700 AD and 1800 AD proved to be
crucial in the history of robotics. Some of the significant contributions to the
field of robotics were made during this period. These included the invention of
three-in-one automata by Jacques de Vaucanson in 1738, the invention of robot
dolls (that could play music, read or draw pictures) in 1770, by Swiss clock
makers. The century also witnessed Industrial Revolution, which was a boon for
the development of robotics. This gave way to the use of steam power and
automation in the production of textiles.

 

In the beginning of the 19th century, a number of robots
were invented. For example, the automated loom was invented by Joseph Jacquard
in 1801. It operated using punched card input. In 1822, Charles Babbage, the
Father of Computer, invented the 'Analytical Engine', which was inspired by
Joseph Jacquard's invention. Babbage's invention also made use of punch cards
for its operation. During the end of the 19th century, in 1898, Nikola Tesla
came up with another invention - this time, a remote controlled robot boat,
which was demonstrated by him at Madison Square Garden, New York.

 

Modern Era Of Robotics

Robotics gained immense popularity in the early 1900s,
which is considered the modern era of the field of robotics. It was further
proved by the introduction of Maria, the first female robot on the silver
screen, in Fritz Lang's silent science fiction movie 'Metropolis', which was
released in 1927. Few years later, in 1959, John McCarthy and Marvin Minsky
established the Artificial Intelligence lab at Massachusetts Institute of
Technology (MIT). The first modern robotic hand was created by Heinrich Erst in
1961. The first industrial robot was invented in 1962 and named as 'Unimate'.
General Motors used the robot to perform repetitive or dangerous tasks on its
assembly line.

 

The year 1966 holds special place in the history of
robotics. It was during this year, when the Stanford Research Institute came up
with the concept and creation of 'Shakey', the first mobile robot ever created
until that time, which could know and react to its own actions. Victor
Scheinman, a Mechanical Engineering student working in the Stanford Artificial
Intelligence Lab (SAIL) created the 'Stanford Arm' in 1969. In 1970 - the
researchers there built the Stanford cart, an intelligent line-follower robot.
In order to assemble machines from small parts, Victor Scheinman invented the
'Silver Arm' robotic arm, in 1974. It made use of touch sensors.

 

Robotics reached its advanced stage in the later half of
20th century. In 1976, Shigeo Hirose came up with an innovative robot - the Soft
Gripper - at the Tokyo Institute of Technology. It was designed to wrap around
an object. In 1977, NASA launched its highly automated Voyager probe, in order
to explore the outer solar system. In the same year, the super-hit Sci-Fi movie
- Star Wars was released, which depicted the strongest image of human being's
future with robots. In 1986, automaker Honda started a humanoid robotics
program, which had 11 versions from 1986 through 2008.

 

Towards the end of 20th century, robotics saw a sea change
in terms of the functionality of the robots. With the passing time, robots
emerged as highly sophisticated machines, which could recognize environment,
distinguish sounds very easy and observe the moving objects. Some of the
wonderful inventions were 'RoboTuna', developed and built by David Barrett, in
1996. 'Gastrobot', a robot that digests organic mass to produce carbon dioxide,
was developed by Chris Campbell and Stuart Wilkinson at the University of South
Florida, in 1996. Three years later, in 1999, Sony released the AIBO robotic
pet.

 

Present Day

The advent of the millennium saw further development in
the field of robotics. In 2000, Honda introduced humanoid robot - ASIMO. Sony
launched its third generation robotic pet in the market in 2003. It was named as
'AIBO ERS-7'. In The present time, Robots emerged as machines that could follow
along with a human by holding hands. Today, with the advancement of science and
technology, the researchers are coming up with innovative ideas to create robots
that could simplify the sophisticated tasks, which are otherwise done with
intense hard work, with work force. Robotics is a developing
science.

Robotics..

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ROBOTICS:

The International Standard Organisation, defines a
robot as an automatically
controlled reprogrammable, multipurpose
manifestative machine, with or without
locomotion, for use in industrial
automation applications. Robotics is all about
designing robots, maintaining
them, developing new applications and conducting
research.
Robots are
built to work repeatedly and accurately even in hazardous
environments. They
are programmed in a way that enables them to operate
automatically. That's
why a robot is called a re-programmable machine.

In India, studies
related to robot techology and its implications are
conducted by the
Department of Science and Technology(DST) and Department of
Scientific and
Industrial Research. The research and development thrust is
carried out by
DST, Department of Electronics and Department of Ocean
Development. IITs,
too, have taken the lead in designing programmes in

robotics.


Areas Of Specialisation:

In
robotics, there are different areas of specialisation. For examples, a student
who specialises in
designing and control, in robotics is close to mechanical
engineering. If you
want to specialise in control and hardware design of
robots, a B.Tech. degree in
electrical or electronics engineering holds the
key. A computer design
programmer can look at hardware design in robotics.
The control part of the
robot is all about certain aspects of electrical
engineering.


SCOPE:

A specialisation in
robotics engineering may lead to potential career opportunities in
manufacturing, research and engineering, agriculture, mining, nuclear,
power-plant maintenances and a variety of other areas. Besides, there is great
scope for qualified experts and researchers to associate themselves with
different segments of R & D in robotics.


As the recent global
career trend in robotics suggests, fields so diverse as
surgery, modern
warfare and nanotechnology have registered a remarkable increase
recently in
their demand for technical experts and researches in

robotics.


One of the great ways to learn about robotics is to
take part in robotics competitions organised by IITs every year. Students from
various engineering colleges and high schools can take part in this technical
festival. Surveys conducted by the government and private agencies reveal that
the robots enhance the job quality, productivity, product quality, profiatbility
for those who work in hazardous environments. Japan has the largest number of
robots and only 3 percent of the workforce is unemployed there. The use of
robots creates jobs and people who are working manually can be rehabilitated in
different areas through training. Even, robots require maintenance, programming
and design change. So, if you rehabilitate the displaced workers and train them
in handling different aspects of robots, it will lead to increased
productivity.


Future of Robotics:Ever consider
the Future of Robotics? What will it really be like? Did Science Fiction get it
right, if not how close were they? Will robots be everywhere and involved in
every aspect of life? Will robots eventually take over all the modern Factories;
will robots be making robots too? Which sectors will we see robots excel in?
Will we see more?


  • Robots in Commerce – Retail, Services, Fields,
  • Robots in the home – Maids, Washing Car, Doing Chores, Mowing the Lawn,
  • Robots in Security – Guards, Guard Dogs, Bomb Sniffers, Bomb Squads,
  • Robots to the Rescue – FEMA, Earthquake, Hurricanes, Wild Fires
  • Robots for the Weather and Environment – Unmanned Aerial Vehicles
  • Robots in Transportation – Light Rail, Cars, Aircraft
  • Robots in Distribution – Trains, Warehouses
  • Robotic Androids – Assistants, Mentors, Educators
  • Robots and Artificial Intelligence – Thinking Machines and Systems
  • Robots in the Military – Smart Munitions, Net-Centric Systems, UAVs
As you can see from this partial list, this subject; The Future of
Robotics indeed warrants a bit of discussion on this subject. The Robots and
Robotics of the future will shape our societies and civilizations forever. Are
we ready for the runway ahead? Who will design, build, market and repair all
these robots and robotic machines? Is our education system up for the challenge
to fulfill the future needs in these industries?

Let us contemplate the
changes in life style, standard of living and quality of life, as robots do our
dirty work, do our jobs and simplify our lives. We must now consider this
future, as it is rapidly approaching and has already started, soon it will be;
Robots, Robots Everywhere.

SCOPE IN INDIA: A candidate
having an M.E. degree in Robotics can get job opportunities in space research
organizations like ISRO and also in industries which manufacture microchips. Job
opportunities also exist in Indian Institute of Technology for doing extensive
research work in artificial intelligence. Furthermore, The Indian Institute of
Chemical Biology offers openings research fellowships in Robotics and Artificial
Intelligence.

SCOPE ABROAD: A Robotics Engineer can get
employment opportunities abroad to program, troubleshoot and maintain robots in
companies like Plastech in USA. Research fellowships as an intern with ATR, the
premier research institute emphasizing on humanoid robotics and computational
neuroscience are also available. Companies like Intel recruit robotics and
artificial intelligence specialists for microchip manufacturing. The Robotics
Industrial Association in North America provides job opportunities in robot
manufacturing and maintenance systems integration. NASA is the ultimate job
destination for those interested in applying robotics to space science.