Tag Archives: TAKE
#431023 Finish Him! MegaBots’ Giant Robot Duel ...
It began two years ago when MegaBots co-founders Matt Oehrlein and Gui Cavalcanti donned American flags as capes and challenged Suidobashi Heavy Industries to a giant robot duel in a YouTube video that immediately went viral.
The battle proposed: MegaBots’ 15-foot tall, 1,200-pound MK2 robot vs. Suidobashi’s 9,000-pound robot, KURATAS. Oehrlein and Cavalcanti first discovered the KURATAS robot in a listing on Amazon with a million-dollar price tag.
In an equally flamboyant response video, Suidobashi CEO and founder Kogoro Kurata accepted the challenge. (Yes, he named his robot after himself.) Both parties planned to take a year to prepare their robots for combat.
In the end, it took twice the amount of time. Nonetheless, the battle is going down this September in an undisclosed location.
Oehrlein shared more about the much-anticipated showdown during our interview at Singularity University’s Global Summit.
Two years since the initial video, MegaBots has now completed the combat-capable MK3 robot, named Eagle Prime. This new 12-ton, 16-foot-tall robot is powered by a 430-horsepower Corvette engine and requires two human pilots.
It’s also the robot they recently shipped to take on KURATAS.
Building Eagle Prime has been no small feat. With arms and legs that each weigh as much as a car, assembling the robot takes forklifts, cranes, and a lot of caution. Fortress One, MegaBots’ headquarters in Hayward, California is where the magic happens.
In terms of “weaponry,” Eagle Prime features a giant pneumatic cannon that shoots huge paint cannonballs. Oehrlein warns, “They can shatter all the windows in a car. It’s very powerful.” A logging grapple, which looks like a giant claw and exerts 3,000 pounds of steel-crushing force, has also been added to the robot.
“It’s a combination of range combat, using the paint balls to maybe blind cameras on the other robot or take out sensitive electronics, and then closing in with the claw and trying to disable their systems at close range,” Oehrlein explains.
Safety systems include a cockpit roll cage for the two pilots, five-point safety seatbelt harnesses, neck restraints, helmets, and flame retardant suits.
Co-founder, Matt Oehrlein, inside the cockpit of MegaBots’ Eagle Prime giant robot.
Oehrlein and Cavalcanti have also spent considerable time inside Eagle Prime practicing battlefield tactics and maneuvering the robot through obstacle courses.
Suidobashi’s robot is a bit shorter and lighter, but also a little faster, so the battle dynamics should be interesting.
You may be thinking, “Why giant dueling robots?”
MegaBots’ grand vision is a full-blown international sports league of giant fighting robots on the scale of Formula One racing. Picture a nostalgic evening sipping a beer (or three) and watching Pacific Rim- and Power Rangers-inspired robots battle—only in real life.
Eagle Prime is, in good humor, a proudly patriotic robot.
“Japan is known as a robotic powerhouse,” says Oehrlein, “I think there’s something interesting about the slightly overconfident American trying to get a foothold in the robotics space and doing it by building a bigger, louder, heavier robot, in true American fashion.”
For safety reasons, no fans will be admitted during the time of the fight. The battle will be posted after the fact on MegaBots’ YouTube channel and Facebook page.
We’ll soon find out whether this becomes another American underdog story.
In the meantime, I give my loyalty to MegaBots, and in the words of Mortal Kombat, say, “Finish him!”
via GIPHY
Image Credit: MegaBots Continue reading
#431022 Robots and AI Will Take Over These 3 ...
We’re no stranger to robotics in the medical field. Robot-assisted surgery is becoming more and more common. Many training programs are starting to include robotic and virtual reality scenarios to provide hands-on training for students without putting patients at risk.
With all of these advances in medical robotics, three niches stand out above the rest: surgery, medical imaging, and drug discovery. How have robotics already begun to exert their influence on these practices, and how will they change them for good?
Robot-Assisted Surgery
Robot-assisted surgery was first documented in 1985, when it was used for a neurosurgical biopsy. This led to the use of robotics in a number of similar surgeries, both laparoscopic and traditional operations. The FDA didn’t approve robotic surgery tools until 2000, when the da Vinci Surgery system hit the market.
The robot-assisted surgery market is expected to grow steadily into 2023 and potentially beyond. The only thing that might stand in the way of this growth is the cost of the equipment. The initial investment may prevent small practices from purchasing the necessary devices.
Medical Imaging
The key to successful medical imaging isn’t the equipment itself. It’s being able to interpret the information in the images. Medical images are some of the most information-dense pieces of data in the medical field and can reveal so much more than a basic visual inspection can.
Robotics and, more specifically, artificial intelligence programs like IBM Watson can help interpret these images more efficiently and accurately. By allowing an AI or basic machine learning program to study the medical images, researchers can find patterns and make more accurate diagnoses than ever before.
Drug Discovery
Drug discovery is a long and often tedious process that includes years of testing and assessment. Artificial intelligence, machine learning and predictive algorithms could help speed up this system.
Imagine if researchers could input the kind of medicine they’re trying to make and the kind of symptoms they’re trying to treat into a computer and let it do the rest. With robotics, that may someday be possible.
This isn’t a perfect solution yet—these systems require massive amounts of data before they can start making decisions or predictions. By feeding data into the cloud where these programs can access it, researchers can take the first steps towards setting up a functional database.
Another benefit of these AI programs is that they might see connections humans would never have thought of. People can make those leaps, but the chances are much lower, and it takes much longer if it happens at all. Simply put, we’re not capable of processing the sheer amount of data that computers can process.
This isn’t a field where we’re worrying about robots stealing jobs.
Quite the opposite, in fact—we want robots to become commonly-used tools that can help improve patient care and surgical outcomes.
A human surgeon might have intuition, but they’ll never have the steadiness that a pair of robotic hands can provide or the data-processing capabilities of a machine learning algorithm. If we let them, these tools could change the way we look at medicine.
Image Credit: Intuitive Surgical Continue reading
#431015 Finish Him! MegaBots’ Giant Robot Duel ...
It began two years ago when MegaBots co-founders Matt Oehrlein and Gui Cavalcanti donned American flags as capes and challenged Suidobashi Heavy Industries to a giant robot duel in a YouTube video that immediately went viral.
The battle proposed: MegaBots’ 15-foot tall, 1,200-pound MK2 robot vs. Suidobashi’s 9,000-pound robot, KURATAS. Oehrlein and Cavalcanti first discovered the KURATAS robot in a listing on Amazon with a million-dollar price tag.
In an equally flamboyant response video, Suidobashi CEO and founder Kogoro Kurata accepted the challenge. (Yes, he named his robot after himself.) Both parties planned to take a year to prepare their robots for combat.
In the end, it took twice the amount of time. Nonetheless, the battle is going down this September in an undisclosed location in Japan.
Oehrlein shared more about the much-anticipated showdown during our interview at Singularity University’s Global Summit.
Two years since the initial video, MegaBots has now completed the combat-capable MK3 robot, named Eagle Prime. This new 12-ton, 16-foot-tall robot is powered by a 430-horsepower Corvette engine and requires two human pilots.
It’s also the robot they recently shipped to Japan to take on KURATAS.
Building Eagle Prime has been no small feat. With arms and legs that each weigh as much as a car, assembling the robot takes forklifts, cranes, and a lot of caution. Fortress One, MegaBots’ headquarters in Hayward, California is where the magic happens.
In terms of “weaponry,” Eagle Prime features a giant pneumatic cannon that shoots huge paint cannonballs. Oehrlein warns, “They can shatter all the windows in a car. It’s very powerful.” A logging grapple, which looks like a giant claw and exerts 3,000 pounds of steel-crushing force, has also been added to the robot.
“It’s a combination of range combat, using the paint balls to maybe blind cameras on the other robot or take out sensitive electronics, and then closing in with the claw and trying to disable their systems at close range,” Oehrlein explains.
Safety systems include a cockpit roll cage for the two pilots, five-point safety seatbelt harnesses, neck restraints, helmets, and flame retardant suits.
Co-founder, Matt Oehrlein, inside the cockpit of MegaBots’ Eagle Prime giant robot.
Oehrlein and Cavalcanti have also spent considerable time inside Eagle Prime practicing battlefield tactics and maneuvering the robot through obstacle courses.
Suidobashi’s robot is a bit shorter and lighter, but also a little faster, so the battle dynamics should be interesting.
You may be thinking, “Why giant dueling robots?”
MegaBots’ grand vision is a full-blown international sports league of giant fighting robots on the scale of Formula One racing. Picture a nostalgic evening sipping a beer (or three) and watching Pacific Rim- and Power Rangers-inspired robots battle—only in real life.
Eagle Prime is, in good humor, a proudly patriotic robot.
“Japan is known as a robotic powerhouse,” says Oehrlein, “I think there’s something interesting about the slightly overconfident American trying to get a foothold in the robotics space and doing it by building a bigger, louder, heavier robot, in true American fashion.”
For safety reasons, no fans will be admitted during the time of the fight. The battle will be posted after the fact on MegaBots’ YouTube channel and Facebook page.
We’ll soon find out whether this becomes another American underdog story.
In the meantime, I give my loyalty to MegaBots, and in the words of Mortal Kombat, say, “Finish him!”
via GIPHY
Image Credit: MegaBots Continue reading
#430914 Blossom: A Handmade Approach to Social ...
Handmade out of organic materials, Blossom is a creative new take on social home robots Continue reading
#430868 These 7 Forces Are Changing the World at ...
It was the Greek philosopher Heraclitus who first said, “The only thing that is constant is change.”
He was onto something. But even he would likely be left speechless at the scale and pace of change the world has experienced in the past 100 years—not to mention the past 10.
Since 1917, the global population has gone from 1.9 billion people to 7.5 billion. Life expectancy has more than doubled in many developing countries and risen significantly in developed countries. In 1917 only eight percent of homes had phones—in the form of landline telephones—while today more than seven in 10 Americans own a smartphone—aka, a supercomputer that fits in their pockets.
And things aren’t going to slow down anytime soon. In a talk at Singularity University’s Global Summit this week in San Francisco, SU cofounder and chairman Peter Diamandis told the audience, “Tomorrow’s speed of change will make today look like we’re crawling.” He then shared his point of view about some of the most important factors driving this accelerating change.
Peter Diamandis at Singularity University’s Global Summit in San Francisco.
Computation
In 1965, Gordon Moore (cofounder of Intel) predicted computer chips would double in power and halve in cost every 18 to 24 months. What became known as Moore’s Law turned out to be accurate, and today affordable computer chips contain a billion or more transistors spaced just nanometers apart.
That means computers can do exponentially more calculations per second than they could thirty, twenty, or ten years ago—and at a dramatically lower cost. This in turn means we can generate a lot more information, and use computers for all kinds of applications they wouldn’t have been able to handle in the past (like diagnosing rare forms of cancer, for example).
Convergence
Increased computing power is the basis for a myriad of technological advances, which themselves are converging in ways we couldn’t have imagined a couple decades ago. As new technologies advance, the interactions between various subsets of those technologies create new opportunities that accelerate the pace of change much more than any single technology can on its own.
A breakthrough in biotechnology, for example, might spring from a crucial development in artificial intelligence. An advance in solar energy could come about by applying concepts from nanotechnology.
Interface Moments
Technology is becoming more accessible even to the most non-techy among us. The internet was once the domain of scientists and coders, but these days anyone can make their own web page, and browsers make those pages easily searchable. Now, interfaces are opening up areas like robotics or 3D printing.
As Diamandis put it, “You don’t need to know how to code to 3D print an attachment for your phone. We’re going from mind to materialization, from intentionality to implication.”
Artificial intelligence is what Diamandis calls “the ultimate interface moment,” enabling everyone who can speak their mind to connect and leverage exponential technologies.
Connectivity
Today there are about three billion people around the world connected to the internet—that’s up from 1.8 billion in 2010. But projections show that by 2025 there will be eight billion people connected. This is thanks to a race between tech billionaires to wrap the Earth in internet; Elon Musk’s SpaceX has plans to launch a network of 4,425 satellites to get the job done, while Google’s Project Loon is using giant polyethylene balloons for the task.
These projects will enable five billion new minds to come online, and those minds will have access to exponential technologies via interface moments.
Sensors
Diamandis predicts that after we establish a 5G network with speeds of 10–100 Gbps, a proliferation of sensors will follow, to the point that there’ll be around 100,000 sensors per city block. These sensors will be equipped with the most advanced AI, and the combination of these two will yield an incredible amount of knowledge.
“By 2030 we’re heading towards 100 trillion sensors,” Diamandis said. “We’re heading towards a world in which we’re going to be able to know anything we want, anywhere we want, anytime we want.” He added that tens of thousands of drones will hover over every major city.
Intelligence
“If you think there’s an arms race going on for AI, there’s also one for HI—human intelligence,” Diamandis said. He explained that if a genius was born in a remote village 100 years ago, he or she would likely not have been able to gain access to the resources needed to put his or her gifts to widely productive use. But that’s about to change.
Private companies as well as military programs are working on brain-machine interfaces, with the ultimate aim of uploading the human mind. The focus in the future will be on increasing intelligence of individuals as well as companies and even countries.
Wealth Concentration
A final crucial factor driving mass acceleration is the increase in wealth concentration. “We’re living in a time when there’s more wealth in the hands of private individuals, and they’re willing to take bigger risks than ever before,” Diamandis said. Billionaires like Mark Zuckerberg, Jeff Bezos, Elon Musk, and Bill Gates are putting millions of dollars towards philanthropic causes that will benefit not only themselves, but humanity at large.
What It All Means
One of the biggest implications of the rate at which the world is changing, Diamandis said, is that the cost of everything is trending towards zero. We are heading towards abundance, and the evidence lies in the reduction of extreme poverty we’ve already seen and will continue to see at an even more rapid rate.
Listening to Diamandis’ optimism, it’s hard not to find it contagious.
“The world is becoming better at an extraordinary rate,” he said, pointing out the rises in literacy, democracy, vaccinations, and life expectancy, and the concurrent decreases in child mortality, birth rate, and poverty.
“We’re alive during a pivotal time in human history,” he concluded. “There is nothing we don’t have access to.”
Stock Media provided by seanpavonephoto / Pond5 Continue reading