The Most Advanced Robots in the Wor

The Most Advanced Robots in the World

When I say robot, what do you picture. It is a humanoid collection of metal and wire stomping around as
it cleans your house or offers drinks to your guests. Well yeah, that would probably be considered a
robot. And if you're imagining the opposite, whether Skynet style intelligence destroying or inflaming
humanity, Will they be relied too. But like we pointed out before, the word robot is about as vague a
term as you can get least in engineering. They are just machines designed to accomplish a task which
could describe pretty much anything. But outside of the dictionary we often take the word robot to
mean one of those humanoid computers cooking you dinner. Thing is, there's a whole lot more robust
than that. What we call a robot tend to have some combination of two elements: mechanical flexibility
and artificial intelligence or AI. That we use to its tasks depending on whether designed to do. A robot
need more flexibility or a we only specific type of AI and firm. Well from a more successful than others,
With such loose terminology picking up the most advanced robots in the world is tricky and probably
also kinda impossible since there's no universally accepted test for how advanced robot. Its objectives
and your list may be different but I'm gonna give you my list anyway. Some of these are robots that
already exists nor doing amazing things and others as proof the concept hints of what the future will
look like. The Davinci surgical robot for example get a lot of attention because it used all over the world.
It's actually kinda weird to think about dementia machine is a robot because it doesn't have much in the
way of artificial intelligence. If you've seen that video that's getting a grip back together. Though, you
know that it sure does have mechanical flexibility with adjustable arms that can bend in ways that
would break a human's wrist. Davinci is an incredibly flexible robot is also a robot in the sense that it's
doing something that previously could only be done by human. It works by using two main parts: a
station with a few arms that actually operate on the patient and a place for human surgeon to sit and
control it remotely. You don't just tell a Davinci but remove the patient's gallbladder now the surgeon
controls every part of the actual surgery. But the defense his arms are designed to scale down the
surgeons movements to be much more precise and they’re equipped with cameras that allow the doctor
to see what's going on in the surgical site even to a tiny incision. It's the kind of thing a human surgeon
would never be able to accomplish because there are limitations to what human hands can do. Divinities
capabilities have made some surgeries like gallbladder removal a lot less invasive than they used to be.
Over the last decade. It's changed the medicine a new versions are just getting better at what they do
getting surgeons greater control and flexibility. For example newer models can be combined with
fluorescence machines are you die the patient's blood with a compound called indocyanine green.
When it’s lit up by a laser the dye emits green light burning the surgeon more clearly see where the
blood vessel save but even though the Davinci has lots of programming to make sure the accurately
translating the surgeons movement. It doesn't need much AI and in this case you probably don't want
the robot to be making decisions on its own. For the next robot on our list which is really just the latest
in a long line a robot, AI is a lot more important. I’m talking about Curiosity, the rover that's been
exploring Mars and August 2012, Like Davinci rovers aren't necessarily the first thing that might come to
your mind when you think robot, but the jam-packed with artificial intelligence plus plenty of flexibility
Mars's far away depending on where Earth and Mars are in their orbit it take between three and 22
minutes for light to travel between the planets. So information is being transmitted any faster .And it
takes to double the time to get a response from here to send a signal both their and back. That's why
modern Rovers are just incredibly expensive remote control toys. It would be like trying to guide a
remote control car but having to wait half an hour every time you press the button. Huge waste
everybody's time. Instead every day the mission scientist send Curiosity any sequence of tasks to do,
and it goes ahead and does them mostly on its own one thing to the rover has to be able to do really
well on its. Own is navigate the team can tell where to go, but it means to be able to avoid obstacles like
dangerous rocks or cliffs along the way. Curiosity is no less than eight cameras to map out the shape of
the train three meters in front of it to plot out about a different possible paths. And then it uses the
safest 11 unnecessary to Rovers called mars 2020 is being designed on Curiosity spec. So it must be an
effective system, but when it comes to navigating through hazardous terrain. Some robots are designed
to do a lot more than just roll over rock. After the 2011 Fukushima disaster darpa started a challenge to
motivate the best roboticists from all over the world to design robot. It would be useful in natural
disaster in the DARPA Robotics Challenge teams compete to have the robots quickly complete a series
of tasks. One in which is a surprise. They have to do things like to climb over piles of debris open doors
and drive a car which let's face it some humans don't do all that well either. Mechanical flexibility is
important obviously, but they need to AI too because the contest organizers figure that in a real disaster
situation, communications won’t be too reliable to the teams have to plan to lose contact with the robot
at any time. The task list so hard .Some complete the course at all from Paul down can get back up and
others just take longer than the time limit which for this year's challenge is an hour total for 8 tasks cut
the robot that took on the two million dollar prize did complete the course in under 45 minute. The
robot called DRC hubo was designed by a team from the Korean Advanced Institute of Science and Technology their. Strategy was to have the remote transform can walk on two legs if you wanted to but
can also scoot along on wheels embedded in its knees. When I was working on things that might have
knocked off balance like opening a door or drilling into a wall. It was a lot more stable it also came
equipped with pleat on its legs kinda like a bull dozer. So when it had to get past a pile debris it could just plow through. Getting up a flight of stairs is also usually for robot because it means to be able to
feel the stairs but its knees get in the way. That's why Hubo walked up backward spinning its torso all
the way around so that its cameras had a clear view of where was going. AI was important but it was
creative solutions in the flexibility department that one this robot the competition self-driving cars,
though those are all about AI companies are developing fleet for them in the mechanical part is mostly
figured out. They're basically just regular cars except spinning centers on top to make them look kind of
like submarines with whirling periscope. The challenge is getting them to navigate highways in crowded
city streets without banging into things or people and for that any. Lots of programming into cars know
all the rules of the road in the program to apply them to different situations while avoiding hazards like
pedestrians bikers another car Google fleet has already logged over a million kilometers on the road.
And it turns out there much safer drivers than humans with only 14 minor accident. Since the project
started six years ago. And none of them or the car's fault to help the course that these robot cars. A
split-second reaction times never get tired or distracted by text messages. And they can share all the
scholars and driving experience. And you might be able to buy one as soon as 2017. Self-driving cars that
you'd have a day. AI did analyzes the situation and then decides what to do based on an incredibly
complicated set of rules and programming. Each car does that all on its own. They use a combination of
cameras radar lasers to keep track of object on the road plotting. The trajectories and other cars bikes
and pedestrians. That's a lot more sophisticated than say a rhumba. But then their robot swarms
which decide what to do together using. Something called collective artificial intelligence. And in
2014researchers at Harvard created. The first real working versions 1,024 often they are little more
futuristic and the other a lot we talked about because robot swarms are still very much a new
thing. There are totally different way of approaching artificial intelligence and robotics. And now we
know that it works. And collected a I to programming is deceptively simple like some colonies a
biological organisms, the robot according to the following a series a simple rules. This particular storm
was designed to organize itself in the shapes. The rules are basically just a figure out where you are. And
if you're on the edge in this warm move along until you find a spot. We are allowed to be that helps
makes each individual bottle at simpler to program. And all them can work together without having to
actively communicate. Eventually this kind of technology can be used in feels like construction or
medicine if someone had an infection for instance to send a fleet a tiny robots into the bloodstream
and have been seeking out and destroy the virus or bacteria. A warm of tiny simple robot to refer to 32
arms might not quite fit in with the Terminator, when it comes to the most advanced robots in the
world