User:Santyspaz

Everything We Know About Robotics[edit | edit source]

ro·bot·ics   (rō-bŏt'ĭks) - is The science or study of the technology associated with the design, fabrication, theory, 
and application of robots.

If you think robots are mainly the stuff of space movies, think again. Right now, all over the world, robots are on the move. They’re painting cars at Ford plants, assembling Milano cookies for Pepperidge Farms, walking into live volcanoes, driving trains in Paris, and defusing bombs in Northern Ireland. As they grow tougher, nimbler, and smarter, today’s robots are doing more and more things we can’t –or don’t want to–do.

Robots have been with us for less than 50 years, but the idea of inanimate creations to do our bidding is much, much older. The ancient Greek poet Homer described maidens of gold, metallic helpers for the Hephaistos, the Greek god of the forge. The golems of medieval Jewish legend were robot-like servants made of clay, brought to life by a spoken charm. Leonardo da Vinci drew plans for a mechanical man in 1495.

But real robots wouldn’t become possible until the 1950’s and 60’s, with the invention of transistors and integrated circuits. Compact, reliable electronics and a growing computer industry added brains to the brawn of already existing machines. In 1959, researchers demonstrated the possibility of robotic manufacturing when they unveiled a computer-controlled milling machine. Its first product: ashtrays.

-What is a robot?-

There’s no precise definition, but by general agreement a robot is a programmable machine that imitates the actions or appearance of an intelligent creature–usually a human. To qualify as a robot, a machine has to be able to do two things: 1) get information from its surroundings, and 2) do something physical–such as move or manipulate objects.

The word robot comes from the Czech word robota, meaning drudgery or slave-like labor. It was first used to describe fabricated workers in a fictional 1920s play by Czech author Karel Capek called Rossum’s Universal Robots. In the story, a scientist invents robots to help people by performing simple, repetitive tasks. However, once the robots are used to fight wars, they turn on their human owners and take over the world.

Public fascination with robotics peaked in the early 1980’s, spurred in part by movies like Star Wars, which featured robots C3-PO and R2-D2 as helpful sidekicks to the their human masters. But interest sagged in a few short years as people discovered that getting robots to do things that we think of as easy–like moving across a cluttered room–is surprisingly difficult.

Today, robots are enjoying a resurgence. As computer processors are getting faster and cheaper, robots can afford to get smarter. Meanwhile, researchers are working on ways to help robots move and "think" more efficiently. Although most robots in use today are designed for specific tasks, the goal is to someday make universal robots, robots that are flexible enough to do just about anything a human does–and more.

10 Amazing Facts about Robots.

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.

A Brief History about Robotics.

~ 350 B.C The brilliant Greek mathematician, Archytas ('ahr 'ky tuhs') of Tarentum builds a mechanical bird dubbed "the Pigeon" that is propelled by steam. It serves as one of histories earliest studies of flight, not to mention probably the first model airplane.

~ 322 B.C. The Greek philosopher Aristotle writes...

“If every tool, when ordered, or even of its own accord, could do the work that befits it... then there would be no need either of apprentices for the master workers or of slaves for the lords.” ...hinting how nice it would be to have a few robots around.

~ 200 B.C. The Greek inventor and physicist Ctesibus ('ti sib ee uhs') of Alexandria designs water clocks that have movable figures on them. Water clocks are a big breakthrough for timepieces. Up until then the Greeks used hour glasses that had to be turned over after all the sand ran through. Ctesibus' invention changed this because it measured time as a result of the force of water falling through it at a constant rate. In general, the Greeks were fascinated with automata of all kinds often using them in theater productions and religious ceremonies.

1495 Leonardo DaVinci designs a mechanical device that looks like an armored knight. The mechanisms inside "Leonardo's robot" are designed to make the knight move as if there was a real person inside. Inventors in medieval times often built machines like "Leonardo's robot" to amuse royalty.

1738 Jacques de Vaucanson begins building automata in Grenoble, France. He builds three in all. His first was the flute player that could play twelve songs. This was closely followed by his second automaton that played a flute and a drum or tambourine, but by far his third was the most famous of them all. The duck was an example of Vaucanson's attempt at what he called "moving anatomy", or modeling human or animal anatomy with mechanics." The duck moved, quacked, flapped it's wings and even ate and digested food.

1770 Swiss clock makers and inventors of the modern wristwatch Pierre Jaquet-Droz and later joined by his son Henri-Louis Jaquet-Droz start making automata for European royalty. They create three dolls, each with a unique function. One can write, another plays music, and the third draws pictures.

1801 Joseph Jacquard builds an automated loom that is controlled with punched cards. Punch cards are later used as an input method for some of the 20th centuries earliest computers.

1822 Charles Babbage demonstrates a prototype of his "Difference Engine" to the Royal Astronomical Society. He continues his work by designing an even more ambitious project "the Analytical Engine" that reportedly was to use punch cards inspired by Joseph Jacquard's invention. During his lifetime he never produces a functional version of either machine. Despite this shortcoming he is often heralded as the "Father of the Computer" and his work lives on as the foundation for the binary numbering system that is the basis of modern computers.

1847 George Boole represents logic in mathematical form with his Boolean Algebra.

1898 Nikola Tesla builds and demonstrates a remote controlled robot boat at Madison Square Garden.

1921 Czech writer Karel Capek introduced the word "Robot" in his play "R.U.R" (Rossuum's Universal Robots). "Robot" in Czech comes from the word "robota", meaning "compulsory labor"

1926 Fritz Lang's movie "Metropolis" is released. "Maria" the female robot in the film is the first robot to be projected on the silver screen.

1936 Alan Turing introduces the concept of a theoretical computer called the Turing Machine. Despite being a fundamental advance in computer logic it also spawns new schools in Mathematics.

1940 Issac Asimov produces a series of short stories about robots starting with "A Strange Playfellow" (later renamed "Robbie") for Super Science Stories magazine. The story is about a robot and its affection for a child that it is bound to protect. Over the next 10 years he produces more stories about robots that are eventually recompiled into the volume "I, Robot" in 1950.

Asimov is generally credited with the popularization of the term "Robotics" which was first mentioned in his story "Runaround" in 1942. But probably Issac Asimov's most important contribution to the history of the robot is the creation of his Three Laws of Robotics:

A robot may not injure a human being, or, through inaction, allow a human being to come to harm.

A robot must obey the orders given it by human beings except where such orders would conflict with the First Law.

A robot must protect its own existence as long as such protection does not conflict with the First or Second Law.

Asimov later adds a "zeroth law" to the list:

Zeroth law: A robot may not injure humanity, or, through inaction, allow humanity to come to harm. 1946 George Devol patents a playback device for controlling machines.

1950 Alan Turing publishes Computing Machinery and Intelligence in which he proposes a test to determine whether or not a machine has gained the power to think for itself. It becomes known as the "Turing Test".

1951 The Day the Earth Stood Still premieres in theaters. The movie features an alien named Klaatu and his robot Gort.

1956 Alan Newell and Herbert Simon create the Logic Theorist, the first "expert system". It is used to help solve difficult math problems.

1956 Aided by a grant from the Rockefeller Foundation John McCarthy, Marvin Minsky, Nat Rochester and Claude Shannon organize The Dartmouth Summer Research Project on Artificial Intelligence at Dartmouth College. The term "artificial intelligence" is coined as a result of this conference.

1959 John McCarthy and Marvin Minsky start the Artificial Intelligence Laboratory at the Massachusetts Institute of Technology (MIT).

1961 Heinrich Ernst develops the MH-1, a computer operated mechanical hand at MIT.

1962 The first industrial arm robot - the Unimate - is introduced. It is designed to complete repetitive or dangerous tasks on a General Motors assembly line.

1963 John McCarthy leaves MIT to start the Artificial Intelligence Laboratory at Stanford University.

1966 The Stanford Research Institute (later to be known as SRI Technology) creates Shakey the first mobile robot to know and react to its own actions. Amongst other achievements SRI was also the research institute that helped bring us modern day laundry detergent in the development of Tide.

1966 An artificial intelligence program named ELIZA is created at MIT by Joseph Weizenbaum. ELIZA functions as a computer psychologist that manipulates its users statements to form questions. Weizenbaum is disturbed at how quickly people put faith in his little program.

1967 Richard Greenblatt writes, MacHack, a program that plays chess, in response to a recent article written by Hurbert Dreyfus where he suggests, as a critique to efforts in artificial intelligence, that a computer program could never beat him in a game of chess. When the program is finished and Dreyfus is invited to play the computer he leads for most of the game but ultimately loses in the end in a close match. Greenblatt's program would be the foundation for many future chess programs, ultimately culminating in Big Blue the chess program that beats chess Grand Master Gary Kasparov.

1968 Stanley Kubrick makes Arthur C. Clark's, 2001: A Space Odyssey into a movie. It features HAL, an onboard computer that decides it doesn't need its human counterparts any longer. Hear HAL by clicking here.

1969 Victor Scheinman, a Mechanical Engineering student working in the Stanford Artificial Intelligence Lab (SAIL) creates the Stanford Arm. The arm's design becomes a standard and is still influencing the design of robot arms today.

1970 Stanford University produces the Stanford Cart. It is designed to be a line follower but can also be controlled from a computer via radio link.

1971 The film Silent Running is released starring Bruce Dern. Bruce's co-stars are three robot drones Huey, Dewey and Louie.

1974 Victor Scheinman forms his own company and starts marketing the Silver Arm. It is capable of assembling small parts together using touch sensors.

1976 Shigeo Hirose designs the Soft Gripper at the Tokyo Institute of Technology. It is designed to wrap around an object in snake like fashion.

1977 Star Wars is released. George Lucas' movie about a universe governed by the force introduces watchers to R2-D2 and C-3PO. The movie creates the strongest image of a human future with robots since the 1960's and inspires a generation of researchers.

1977 Deep space explorers Voyagers 1 and 2 launch from the Kennedy Space Flight Center.

1979 The Robotics Institute at Carnegie Mellon University is established.

1979 The Stanford Cart is rebuilt by Hans Moravec. He adds a more robust vision system allowing greater autonomy. These are some of the first experiments with 3D environment mapping.

1980 Seymour Papert publishes Mindstorms: Children, Computers, and Powerful Ideas where he advocates constructionism, or learning through doing.

1981 Takeo Kanade builds the direct drive arm. It is the first to have motors installed directly into the joints of the arm. This change makes it faster and much more accurate than previous robotic arms.

1982 "A new life awaits you on the Off-World colonies." Blade Runner is released. This Ridley Scott film is based on the Philip K. Dick story "Do Androids Dream of Electric Sheep?" and starred Harrison Ford as Rick Deckard a retired Blade Runner that hunted Replicants (or illegal mutinous androids).

1986 LEGO and the MIT Media Lab colaborate to bring the first LEGO based educational products to market. LEGO tc Logo is used by in the classrooms of thousands of elementary school teachers.

1986 Honda begins a robot research program thats starts with the premise that the robot "should coexist and cooperate with human beings, by doing what a person cannot do and by cultivating a new dimension in mobility to ultimately benefit society."

1989 A walking robot named Genghis is unveiled by the Mobile Robots Group at MIT. It becomes known for the way it walks, popularly referred to as the "Genghis gait".

1989 At MIT Rodney Brooks and A. M. Flynn publish the paper "Fast, Cheap and Out of Control: A Robot Invasion of the Solar System" in the Journal of the British Interplanetary Society. The paper changes rover research from building the one, big, expensive robot to building lots of little cheap ones. The paper also makes the idea of building a robot somewhat more accessible to the average person.

1989 Dr. Seymour Papert becomes the LEGO Professor of Learning Research.

1992 In an attempt to build a radio controlled vaccuum cleaner Marc Thorpe has the idea to start a robot combat event.

1992 Dr. John Adler came up with the concept of the CyberKnife a robot that images the patient with x-rays to look for a tumor and delivering a pre-planned dose of radiationto the tumor when found.

1993 Dante an 8-legged walking robot developed at Carnegie Mellon University descends into Mt. Erebrus, Antarctica. Its mission is to collect data from a harsh environment similar to what we might find on another planet. The mission fails when, after a short 20 foot decent, Dante's tether snaps dropping it into the crater.

1994 Dante II, a more robust version of its predicessor, descends into the crater of Alaskan volcano Mt. Spurr. The mission is considered a success.

1994 Marc Thorpe starts Robot Wars at Fort Mason center in San Francsico, CA.

1995 The second annual Robot Wars event is held at Fort Mason Center, San Francisco, CA.

1996 A RoboTuna is designed and built by David Barrett for his doctoral thesis at MIT. It is used to study the way fish swim.

1996 Chris Campbell and Stuart Wilkinson turn a brewing accident into inspiration at the University of South Florida. The result is the Gastrobot, a robot that digests organic mass to produce carbon dioxide that is then used for power. They call their creation the "flatulence engine."

1996 Honda debuts the P3, the fruit of its decade long effort to build a humanoid robot.

1996 The third annual Robot Wars event is held at Fort Mason Center, San Francisco, CA.

1997 The first node of the International Space Station is placed in orbit. Over the next several years more components will join it, including a robotic arm designed by Canadian company MD Robotics.

1997 The Pathfinder Mission lands on Mars. Its robotic rover Sojourner, rolls down a ramp and onto Martian soil in early July. It continues to broadcast data from the Martian surface until September.

1998 Tiger Electronics introduces the Furby into the Christmas toy market. It quickly becomes "the toy" to get for the season. Using a variety of sensors this "animatronic pet" can react to its environment and communicate using over 800 phrases in English and their own language "Furbish".

1998 LEGO releases their first Robotics Invention SystemTM 1.0. LEGO names the product line MINDSTORMS after Seymour Papert's seminal work of 1980.

1999 LEGO releases The Robotics Discovery Set, Droid Developer Kit and the Robotics Invention System 1.5.

1999 SONY releases the AIBO robotic pet.

2000 Honda debuts new humanoid robot ASIMO.

2000 The Battlebots event is held in Las Vegas, Nevada.

2000 LEGO releases the MINDSTORMS Robotics Invention SystemTM 2.0

2001 LEGO releases the MINDSTORMS Ultimate Builder's Set

2001 In August, the FDA clears the CyberKnife to treat tumors anywhere in the body.

2002 Honda's ASIMO robot rings the opening bell at the New York Stock Exchange.

2003 June 10th - NASA launches the MER-A "Spirit" rover destined for Mars. July 7th - NASA launches the MER-B "Opportunity".

2003 SONY releases the AIBO ERS-7 it's 3rd generation robotic pet.

2004 Jan. 4th - After six minutes of holding our breath (during EDL) as it burned and bounced its way to the red planet the robot rover Spirit lands on Mars.

Jan. 23rd - The second Mars Exploration Rover - "Opportunity" safely lands on the Meridium Planum.