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SCIENCE IN THE NEWS - Human
Brain Still Leads, as Science Looks to Next 50 Years of Artificial
Intelligence
Written by Jill Moss
31 July 2006
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VOICE ONE:
This is SCIENCE IN THE NEWS in VOA Special English. I'm Bob Doughty.
VOICE TWO:
And I'm Pat Bodnar. This week -- thinking about artificial intelligence
...
VOICE ONE:
And technology that uses thought to control movement could offer hope to
people with spinal cord injuries.
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VOICE ONE:
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The
animated face of a robot designed at Carnegie Mellon University for an
artificial intelligence competition |
Artificial intelligence is
technology designed to perform jobs that require higher-level thinking
skills. In other words, skills like those of human intelligence.
A.l. systems have many different uses. They are used in economics, to
study things like stock market activity. They are used in medicine -- for
example, to help doctors recognize disorders and choose the best
treatments. And they are used in the military, to develop systems like
self-guiding vehicles and so-called smart bombs that look for their
targets.
Robotic systems with artificial intelligence can perform many industrial
duties. These robots can also help doctors operate on patients. They can
even pilot spacecraft.
VOICE TWO:
In the summer of nineteen fifty-six, a small group of scientists gathered
in Hanover, New Hampshire. They discussed how to create computer programs
and machines that could think the way humans do. The conference was
proposed as a two-month study. It was called the Dartmouth Summer Research
Project on Artificial Intelligence.
The idea of intelligent machines is ancient. But the name of the Dartmouth
project marked the first known use of the term "artificial intelligence."
So says the American Association for Artificial Intelligence.
Dartmouth College just marked the fiftieth anniversary of that summer
study. In July the school held a conference called AI@50 to explore the
next fifty years in artificial intelligence. Organizers say about one
hundred seventy-five people attended the three-day event.
Young graduate students got to meet the two men often called the fathers
of artificial intelligence: Marvin Minsky and John McCarthy. Fifty years
ago, Mister Minsky was a junior fellow at Harvard University. Mister
McCarthy was a professor of mathematics at Dartmouth. These two
researchers, and two others, wrote a proposal for the summer research
project. Mister McCarthy is the one credited for the name "artificial
intelligence."
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VOICE ONE:
The organizers of the nineteen fifty-six conference based it on a theory.
The idea was that every part of human intelligence could be described in
such detail that a machine could be made to copy it.
James Moor is a philosophy professor at Dartmouth. He directed the AI@50
conference last month. Professor Moor says it is true that computers are
being built that operate in some ways like the brain. These are known as
neural net computers. But, he adds, machines are unlikely to fully capture
all human emotions, feelings and creativity -- at least not anytime soon.
The professor says computers may never replace humans, but humans should
expect to find more and more "smart machines." These devices could someday
even be implanted in the body.
Research into artificial intelligence includes areas like learning,
reasoning and action. The work brings together people from many different
areas of expertise.
Yet progress with artificial intelligence has been slower than those
scientists fifty years ago had hoped. For example, Professor Moor notes
the continued difficulty to train computers to use and translate language.
Using language correctly requires a knowledge of countless social and
cultural situations and conditions.
So language is an area where humans can still consider themselves smarter
than machines.
VOICE TWO:
Carey Heckman teaches in the philosophy and computer science departments
at Dartmouth. He notes that artificial intelligence plays an important
part in national security and anti-terrorism programs. For example, A.I.
systems are used in collecting communications and recognizing faces in a
crowd.
Uses like these incite debate about issues like government spying and loss
of privacy. Artificial intelligence is not just fertile ground for science
fiction writers. There are social and economic issues to consider as the
technology spreads. Even just the idea of trying to get computers to think
like humans is enough to frighten some people.
At the same time, A.I. research involves philosophical questions about
intelligence and the mind. These questions relate to how humans work and
think. Carey Heckman at Dartmouth says the more scientists learn about
artificial intelligence, "the more we learn about ourselves."
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VOICE ONE:
You are listening to SCIENCE IN THE NEWS in VOA Special English.
Scientists and engineers have created all kinds of technology to make
people's lives easier. This is true for disabled people as well. But what
about those with severe spinal-cord injuries, who cannot move their arms
or legs? A new device could make their lives easier, too. This may not be
an example of artificial intelligence, but it is an example of what human
intelligence can do with technology.
A report last month in Nature magazine described a study by a team led by
researchers at Brown University in Rhode Island.
VOICE TWO:
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Matthew
Nagle, with a BrainGate sensor in his head, is assisted by Abraham
Caplan of Cyberkinetics, the maker |
For nine months, the
researchers followed a twenty-five-year-old disabled man as he learned to
move objects simply with thought. This ability was made possible by a
small electronic device in his brain. The device is a neuromotor
prosthesis called BrainGate. It measures four millimeters by four
millimeters.
The BrainGate device acts as a brain-to-movement system. Doctors inserted
it into the motor cortex, a part of the brain involved in controlling
movements.
The man had suffered a spinal cord injury three years earlier. But the
researchers found that nerve activity continued in his motor cortex. The
team had not known for sure if movement signals would still be sent in
this part of his brain.
The patient was paralyzed from the neck down as a result of a knife wound
that cut his spinal cord. But with the BrainGate system, he was able to
guide a computer cursor and control objects on the screen. He could open
e-mail and play "Neural Pong," a simple video game.
The patient could also operate a television. He was able to perform these
actions while speaking at the same time. He was even able to pick up small
objects with a robotic arm.
VOICE ONE:
Nerve activity recorded by the BrainGate sensor is processed into movement
commands. The system used in the study includes wires attached to the
skull. These wires pass through the skin to carry nerve signals to
computers and other equipment to process them.
After the report was written, the scientists added a second patient with
spinal cord injury to the study, a man fifty-five years old.
Research with neuromotor prosthetics has also been done with monkeys.
Experts say the BrainGate system marks a big improvement in what is known
as brain-computer interface technology.
Scientists say the device could one day control a wheelchair or prosthetic
arms and legs. They say the device, if combined with a muscle movement
system, might even return the use of paralyzed limbs.
But a lot more work is needed before any of this might be possible.
VOICE TWO:
A company called Cyberkinetics Neurotechnology Systems created the
BrainGate device. Professors and students at Brown University formed
Cyberkinetics in two thousand one. They based their work on research
developed in the laboratory of neuroscientist John Donoghue. The
government paid for much of the research.
Professor Donoghue has been working on the BrainGate technology for more
than ten years. He is chief scientific officer at Cyberkinetics and helped
lead the study published in Nature.
In a related paper, researchers at Stanford University say the device
produces an even faster reaction when placed in a different area in the
brain. They say it could someday be possible to communicate information at
a rate equal to typing fifteen words per minute on a computer.
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VOICE TWO:
SCIENCE IN THE NEWS was written by Jill Moss and produced by Brianna
Blake. Transcripts and archives of our shows are at voaspecialenglish.com.
I'm Pat Bodnar.
VOICE ONE:
And I'm Bob Doughty. Our e-mail address is special@voanews.com. We hope
you can join us again next week for more news about science in Special
English on the Voice of America.
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