Last week, a robotic hand successfully solved a Rubik's Cube. While that feat might seem like a fun parlor trick, it's a sign that robots are being programmed to learn and not just memorize.
Robots are already playing important roles inside retail giants like Amazon and manufacturing companies like Foxconn by completing very specific, repetitive tasks! This Is What The Future Of Robots Might Do To Humanity www.forbes.com ...what- ...might- ...humanity The Good Robot report suggests robots of the future might be a little more C-3PO than Terminator, but the risk of a robot revolution depends largely on us doing this...!! But many believe that machine learning will ultimately allow robots to master a much wider array of more complex functions .
When you imagine the future of robots and artificial intelligence, do you get excited? Do you envision a world of benefits for humankind? Or does an automated future fill you with concern and fear?
In " If a Robotic Hand Solves a Rubik's Cube, Does It Prove Something? " Cade Metz writes about how this five-fingered feat could show important progress in A.I. research:
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Watch a robot made of robots move around | Science | AAAS
Good news for small, helpless robots who long to be a part of something bigger: Researchers have found a way to create "robots made of robots" that can move around, even though the individual parts can't travel on their own.
To create this robot horde, researchers designed several roughly iPhone-size machines called "smarticles"—short for smart particles—that could flap their small arms up and down but could not move from place to place by themselves! 21 Future Jobs the Robots Are Actually Creating | Inc.com www.inc.com ...robots ...Among these optimists are IT service company Cognizant. In a recent report (hat tip to Business Insider for the pointer), the consultancy notes that while creative destruction has always been with us, so has reinvention. Sure, robots will take jobs away, but they'll also create new ones.!! They then put five of the smarticles in a plastic ring. This group of robots—which the researchers call a "supersmarticle"—could move by itself in random directions as the individual smarticles collided with each other.
The team then created an algorithm that allowed the supersmarticles to move as a group toward a source of light! What Does the Future of Collaborative Robots Look Like ...www. robotics ...Does - ...Robots ...The future of collaborative robots is bright. The market is projected to grow rapidly in the short-term, driven by the fact that collaborative robots can quickly and cost effectively address manufacturers most pressing problems. In addition to this robust market growth, collaborative robot ...!! Each smarticle was outfitted with a light sensor that caused it to stop moving when it got too bright! What Military Robots of the Future Will Look Like - Nanalyze ...robots - future We take a look at what the military robots of the future might look like, and they're not what you think. Ever wonder what military robots might look like? We take a look at what the military robots of the future might look like, and they're not what you think. ...Turns out that artillery still serves a purpose given the bang you get for the buck.!! When the front robots closest to the bulb stopped moving, the robots in the back, which were in the shadow of the front robots, kept flapping their arms and bumping into each other; they eventually pushed the whole group forward toward the light (see video), the team reports today in Science Robotics .
Darn You, R2-- When Do We Blame Robots? | NC State News
A recent study from North Carolina State University finds that people are likely to blame robots for workplace accidents, but only if they believe the robots are autonomous.
"Robots are an increasingly common feature in the workplace, and it's important for us to understand how people view robots in that context – including how people view robots when accidents occur at work," says Doug Gillan, a professor of psychology at NC State and corresponding author of a paper on the work.
To explore this issue, researchers conducted a study where 164 people were shown several workplace scenarios in which an accident occurred involving both a human and a robot.
When told the human was operating the robot, study participants usually blamed the human for the accident! What concerns do you have about the future use of robots ...do _ you _have_about_ the_future _use_ of_robots _in...I think the purpose of this exercise was for YOU to use your imagination to think about what you think robots will be doing in the future . What sorts of things do you think they might do if things ...!! When told the robot was autonomous, and that the human was only monitoring it, study participants usually blamed the robot.
Realtime Robotics scores $11.7M Series A to help robots avoid collisions – TechCrunch
One of the major challenges facing engineers as they develop more agile robots is helping them move through space while avoiding collisions, especially in a dynamic environment. Realtime Robotics , a Boston-based startup, announced an $11.7 million Series A investment to help solve this problem.
SPARX Asset Management led the round, with participation from some strategic investors, including Mitsubishi Electric Corporation, Hyundai Motor Company and Omron Ventures. Existing investors Toyota AI Ventures, Scrum Ventures and the Duke Angel Network also pitched in. Today’s investment is actually the culmination of a couple of investments over this year that the company is announcing today, and brings the total raised to $12.9 million.
Realtime Robotics CEO Peter Howard says the company’s solutions are grounded in advanced research on robotic motion planning. “We are based on research work done at Duke University in 2016 in the field of work called robotic motion planning, which is basically how a six or seven degree of freedom robot finds its way through space without hitting anything,” Howard told TechCrunch.
And here's another article:
Fastest Robot | Are Robots Faster than Humans | Robots vs. Humans
A single motor at PER’s core drives its legs in an elliptical or oval motion that makes for inherent stability, so it avoids falling forward or backward. Torsion springs generate added power in PER’s legs, making it still more steady. The paragon of dynamic geometry is unencumbered by any power-hungry, number-crunching processor that gauges steps in line with sensor data.
Radically different in looks from MIT’s mechanical cat, the wheel-based HexRunner is almost 6 feet tall. Armed with two sets of three spokes set either side of a hub, it rolls along like tumbleweed by spinning both, so whenever one of its six feet leaves the ground, another touches down.
“With most running and walking robots we have a lot of sensors, and about a thousand times a second we read what the sensors are doing,” Pratt says in the video. “We do a lot of computation to figure out what the actuators should be doing.”
Small assembler robots work together to build large structures
It's not uncommon for factories to make use of robots to manufacture things like cars, each responsible for a different part of the build process. Researchers from MIT have created prototype assembly robots that can build small structures on their own or work together to create bigger ones.
The idea behind Benjamin Jenett's doctoral thesis is that, instead of producing components at separate locations and shipping them to a different manufacturing plant for final assembly, the whole thing could be constructed in the same place by small robots from a pool of identical pieces. These so-called Assembler Robots have been dubbed BILL-E (Bipedal Isotropic Lattice Locomoting Explorer) and could find applications in aircraft construction, bridge building and might even erect whole buildings from the ground up.
The robots take the form of a hinged arm with grippers at either end to clamp onto three-dimensional blocks or units – called voxels – that are used to build the structures. These voxels serve as the construction equivalent of pixels in an image, with an object being built up one voxel at a time to create a complete structure.
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