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Artificial Intelligence and Robotics
To be able to create a synthetic being that could do the mundane chores of our every day lives, has been a goal for us humans for not just the last 20 years, or the last century, but as far back as the ancient Greeks. In 350 BC, the Greek mathematician Archytas built a steam powered mechanical pigeon, that could fly. In 1495, Leonardo Devinci designed what looked like a mechanical Knight. In 1801, Joseph Jacquard built an automated loom, that was controlled by punch cards. The punch cards being likened to a modern day computer program, that told the loom how to work. These are but a few examples of robotics and automata of old. To find more, a simple web search with "history of robots" will bring up a plethora of information for the budding technologist.
When a person is first presented with the term artificial intelligence, they, as long as they have at least a minimal idea of the meaning, immediately conjure up the view of subservient humanoid robots, doing our household chores, policing our streets, or taking on our enemies in a combat zone. These, although being worked on, are quite some way from being a reality. Although, there are robot vacuum cleaners, and automated (robotic) missiles and vehicles to name but a few, but none of any consequence in human form.
There are many hurdles to be crossed before humanoid robots will become common place, not least of all, the mostly negative psychological effect realised by many who our uncomfortable with a visually realistic humanoid automaton.
Walking on two legs, which us humans take for granted, had the problem of balance to solve, and has only recently been mastered, as represented by mechanoids such as sony's Asimo. And running, although done fairly well by Asimo, still needs a good amount of work before being able take on a human athlete on a running track.
Emulating the human senses has provided computer scientists and engineers with many an obstacle. Mastering sound, vision, touch and taste have been met with varying degrees of success. Sound and visual recognition has come along in leaps and bounds in recent years, and has given us fully automated weaponry that is able to track a target, and hit it with pin point accuracy. Voice recognition has given us voice activated devices such as those used in security systems, and the ability to dictate to a computer and have the computer generate the text from a person's verbalisation. Special sensors can be used to test (taste,touch) surfaces, chemicals, gasses etc. and analyse them.
The ability to reason with an automated device or robot, is one area that is a long way from being a reality, but an area that has had, and will have many devotees. There are two main branches of research when dealing with artificial intelligence and robotics, the first being the creation of a truly thinking and reasoning artificial life form much like the robots and computers found in fiction, such as Robby from the film The Forbidden Planet, or Data from Star Trek The Next Generation, or the boy from the film Artificial Intelligence. These, for now, are somewhat whimsical, but should never be given up on, and with future advances in technology will at some point become a reality. The other branch is the more realistic approach to making use of the byproducts of the artificial intelligence research, that can be put to use in our day to day lives. This side has brought us the computer and the parts that make up a computer (e.g. integrated circuitry – chips). Automated weaponry and security systems. Automated vehicles and craft, such as spy planes, and trains. Communication systems, such a mobile/cell phones and satellites. In fact, just about every electronic device that is made contains some sort of automation, including cars, vacuum cleaners, gym equipment, buildings, street lighting... to name but a few.
All in all, we would not have the gadget filled electronics eutopia as we do now, if it was not for the people such as Charles Babbage, Alan Turing, and Steve Wozniak, to name but a miniscule number, who pursued their dreams and as a result positively contributed to the world's knowledge of artificial intelligence, robotics and computing.
About the Author
My interests are far flung, from sports and the arts, to politics and world affairs. Visit ChuckyWorld, and take your time browsing the plethora of pandamonium within (still under construction).
Are Robotic Lawn Mowers Dangerous?
The idea of a robot with sharp blades attached to a powerful motor wandering around the lawn can sound frightening. But should it be? If you have seen a robotic mower, whether in person or on the internet, the thought may have crossed your mind. But exactly how do accidents with lawn mowers happen?
Each year, about 68,000 people with injuries caused by traditional power lawn mowers are treated in hospitals. (Source: American Academy of Pediatrics) The most injuries from traditional lawn mowers occur when people place their fingers near the blade, generally in an attempt to clear away a clump of grass or other undesired matter. Most of these accidents occur when the person reaches under the "skirt" of the mower, or reaches into the discharge chute. (Source: Technology Associates) Other common injuries are caused by flying objects. Traditional lawn mowers have large blades that can throw objects as much as 50 feet.
Combine that with risk of the operator slipping underneath, flipping over in a riding lawn mower, or being run over; one can easily see the concern for safety when it comes to lawn mowers in general.
But robotic lawn mowers are completely different. The one biggest safety advantage robotic lawn mowers have over traditional lawn mowers is that you do not have to stand behind it or ride on top of it. By removing the person, this alone eliminates most causes of lawn mower injuries.
Robotic lawn mowers are unlikely to clog. Take it from someone who has been an exclusively user of robotic lawn mowers for over 7 years - robotic mowers mow frequently and chop grass fine enough that the likelihood of clumps forming under the mower (or anywhere for that matter) are eliminated. But even if you attempt to lift the mower while it is operating, the blade will immediately stop spinning. However, if the blade(s) were to get snagged onto something, the robotic lawn mower's computer is smart enough to shut down the blade(s) and signal for help.
Robotic lawn mowers have very different blades than the traditional mowers. First, the blades are a lot smaller which play a large part as to why it is less likely to throw objects far away. Even though robotic lawn mower blades spin a lot faster and yields a better-cut quality than traditional mower blades, the force behind the smaller blades just isn't enough to launch objects nearly as far as larger heavier blades. Also robotic lawn mowers blades are usually recessed or protected on all sides obstructing a clear pathway for flying objects to travel.
Being an avid user and tester of robotic lawn mowers, I have personally seen objects thrown for a maximum of 5 feet max from a robotic lawn mower. The objects rarely make it more than 8 inches off the ground and do not have nearly the amount of force behind them compared to if a traditional mower throws the same object.
Since the safety mechanisms of robotic lawn mowers are integrated into the mower's computer, they are difficult to bypass. Some robotic lawn mowers, like LawnBott utilize touch handles that work similar to touch lamps. By merely touching the handle, the blade stops spinning in an instant. All robotic mowers have lift detectors that stop the blade when lifted or flipped over.
Other safety features include PIN codes, bump sensors that detect objects left in the yard, and the ability to run during night hours are all among the palette of safety features that traditional lawn mowers couldn't dream of.
About the Author
Clint runs http://www.lawnbotts.com - a website dedicated to LawnBott robotic lawn mower sales, service, education and support.
