Tag Archives: web

#439183 This Week’s Awesome Tech Stories From ...

ROBOTICS
The Robot Surgeon Will See You Now
Cade Metz | The New York Times
“Real scalpels, artificial intelligence—what could go wrong? …The [Berkeley] project is a part of a much wider effort to bring artificial intelligence into the operating room. Using many of the same technologies that underpin self-driving cars, autonomous drones and warehouse robots, researchers are working to automate surgical robots too. These methods are still a long way from everyday use, but progress is accelerating.”

FUTURE
This Tech Was Science Fiction 20 Years Ago. Now It’s Reality
Luke Dormehl | Digital Trends
“A couple of decades ago, kids were reading Harry Potter books, Pixar movies were all the rage, and Microsoft’s Xbox and Sony’s PlayStation were battling it out for video game supremacy. That doesn’t sound all that different from 2021. But technology has come a long way in that time. Not only is today’s tech far more powerful than it was 20 years ago, but a lot of the gadgets we thought of as science fiction have become part of our lives.”

LONGEVITY
How Long Can We Live?
Ferris Jabr | The New York Times Magazine
“As the global population approaches eight billion, and science discovers increasingly promising ways to slow or reverse aging in the lab, the question of human longevity’s potential limits is more urgent than ever. When their work is examined closely, it’s clear that longevity scientists hold a wide range of nuanced perspectives on the future of humanity.”

3D PRINTING
Forget Digging for Fossils. This Museum Printed a Full T-Rex Skeleton Instead
Luke Dormehl | Digital Trends
“For a team of researchers at the Naturalis Biodiversity Center in Leiden, the Netherlands, copying a T. rex took some state-of-the-art laser scanning technology, a giant 3D printer, a just-as-sizable postage bill, almost 45 million square millimeters of acrylic paint, and a group of experts wishing to push the boundaries of additive manufacturing.”

HEALTH
One Vaccine to Rule Them All
James Hamblin | The Atlantic
“i‘A universal SARS-CoV-2 vaccine is step one,’ [Anthony] Fauci said. Step two would be a universal coronavirus vaccine, capable of protecting us not only from SARS-CoV-2 in all its forms, but also from the inevitable emergence of new and different coronaviruses that might cause future pandemics. The race to create such a vaccine may prove one of the great feats of a generation.”

TECHNOLOGY
These Materials Could Make Science Fiction a Reality
John Markoff | The New York Times
“Imagine operating a computer by moving your hands in the air as Tony Stark does in Iron Man. Or using a smartphone to magnify an object as does the device that Harrison Ford’s character uses in Blade Runner. …These advances and a host of others on the horizon could happen because of metamaterials, making it possible to control beams of light with the same ease that computer chips control electricity.”

DRONES
Wingcopter Debuts a Triple-Drop Drone to Create ‘Logistical Highways in the Sky’
Aria Alamalhodaei | TechCrunch
“The Wingcopter 198, which was revealed Tuesday, is capable of making three separate deliveries per flight, the company said. Wingcopter has couched this multi-stop capability as a critical feature that will allow it to grow a cost-efficient—and hopefully profitable—drone-delivery-as-a-service business.”

SPACE
The Asteroid Impact Simulation Has Ended in Disaster
George Dvorsky | Gizmodo
“An international exercise to simulate an asteroid striking Earth has come to an end. With just six days to go before a fictitious impact, things don’t look good for a 185-mile-wide region between Prague and Munich. …This may sound like a grim role-playing game, but it’s very serious business. Led by NASA’s Jet Propulsion Laboratory’s Center for Near Earth Object Studies, the asteroid impact simulation is meant to prepare scientists, planners, and key decision makers for the real thing, should it ever occur.”

Image Credit: mitsal dian / Unsplash Continue reading

Posted in Human Robots

#439157 This Week’s Awesome Tech Stories From ...

COMPUTING
Now for AI’s Latest Trick: Writing Computer Code
Will Knight | Wired
“It can take years to learn how to write computer code well. SourceAI, a Paris startup, thinks programming shouldn’t be such a big deal. The company is fine-tuning a tool that uses artificial intelligence to write code based on a short text description of what the code should do. Tell the company’s tool to ‘multiply two numbers given by a user,’ for example, and it will whip up a dozen or so lines in Python to do just that.”

SPACE
NASA’s Perseverance Rover Just Turned CO2 Into Oxygen
Morgan McFall-Johnsen | Business Insider
“That’s good news for the prospect of sending human explorers to Mars. Oxygen takes up a lot of room on a spacecraft, and it’s unlikely that astronauts will be able to bring enough with them to Mars. So they’ll need to produce their own oxygen from the Martian atmosphere, both for breathing and for fueling rockets to return to Earth.”

ARTIFICIAL INTELLIGENCE
Latest Neural Nets Solve World’s Hardest Equations Faster Than Ever Before
Anil Ananthaswamy | Quanta
“…researchers have built new kinds of artificial neural networks that can approximate solutions to partial differential equations orders of magnitude faster than traditional PDE solvers. And once trained, the new neural nets can solve not just a single PDE but an entire family of them without retraining.”

SPACE
NASA’s Bold Bet on Starship for the Moon May Change Spaceflight Forever
Eric Berger | Ars Technica
“Until now, the plans NASA had contemplated for human exploration in deep space all had echoes of the Apollo program. …By betting on Starship, which entails a host of development risks, NASA is taking a chance on what would be a much brighter future. One in which not a handful of astronauts go to the Moon or Mars, but dozens and then hundreds. In this sense, Starship represents a radical departure for NASA and human exploration.”

AUTOMATION
Who Will Win the Self-Driving Race? Here Are Eight Possibilities
Timothy B. Lee | Ars Technica
“…predicting what the next couple of years will bring is a challenge. So rather than offering a single prediction, here are eight: I’ve broken down the future into eight possible scenarios, each with a rough probability. …A decade from now, we’ll be able to look back and say which companies or approaches were on the right track. For now, we can only guess.”

TECHNOLOGY
Europe’s Proposed Limits on AI Would Have Global Consequences
Will Knight | Wired
“The rules are the most significant international effort to regulate AI to date, covering facial recognition, autonomous driving, and the algorithms that drive online advertising, automated hiring, and credit scoring. The proposed rules could help shape global norms and regulations around a promising but contentious technology.”

SCIENCE
What Do You Call a Bunch of Black Holes: A Crush? A Scream?
Dennis Overbye | The New York Times
“[Astrophysicist Jocelyn Kelly Holley-Bockelmann] was trying to run a Zoom meeting of the [Laser Interferometer Space Antenna] recently ‘when one of the members said his daughter was wondering what you call a collective of black holes—and then the meeting fell apart, with everyone trying to up one another,’ she said in an email. ‘Each time I saw a suggestion, I had to stop and giggle like a loon, which egged us all on more.’i”

ENVIRONMENT
Stopping Plastic in Rivers From Reaching the Ocean With New Tech From the Ocean Cleanup Project
Stephen Beacham | CNET
“First announced by Ocean Cleanup founder and CEO Boyan Slat in 2019, the Interceptors are moored to river beds and use the currents to snag debris floating on the surface. Then they direct the trash onto a conveyor belt that shuttles it into six large onboard dumpsters. The Interceptors run completely autonomously day and night, getting power from solar panels.”

FUTURE
Hackers Used to Be Humans. Soon, AIs Will Hack Humanity
Bruce Schneier | Wired
“Hacking is as old as humanity. We are creative problem solvers. We exploit loopholes, manipulate systems, and strive for more influence, power, and wealth. To date, hacking has exclusively been a human activity. Not for long. As I lay out in a report I just published, artificial intelligence will eventually find vulnerabilities in all sorts of social, economic, and political systems, and then exploit them at unprecedented speed, scale, and scope.”

Image Credit: NASA (Image of Martian sand dunes taken by NASA’s Curiosity rover) Continue reading

Posted in Human Robots

#439132 This Week’s Awesome Tech Stories From ...

ARTIFICIAL INTELLIGENCE
15 Graphs You Need to See to Understand AI in 2021
Charles Q. Choi | IEEE Spectrum
“If you haven’t had time to read the AI Index Report for 2021, which clocks in at 222 pages, don’t worry—we’ve got you covered. The massive document, produced by the Stanford Institute for Human-Centered Artificial Intelligence, is packed full of data and graphs, and we’ve plucked out 15 that provide a snapshot of the current state of AI.”

FUTURE
Geoffrey Hinton Has a Hunch About What’s Next for Artificial Intelligence
Siobhan Roberts | MIT Technology Review
“Back in November, the computer scientist and cognitive psychologist Geoffrey Hinton had a hunch. After a half-century’s worth of attempts—some wildly successful—he’d arrived at another promising insight into how the brain works and how to replicate its circuitry in a computer.”

ROBOTICS
Robotic Exoskeletons Could One Day Walk by Themselves
Charles Q. Choi | IEEE Spectrum
“Ultimately, the ExoNet researchers want to explore how AI software can transmit commands to exoskeletons so they can perform tasks such as climbing stairs or avoiding obstacles based on a system’s analysis of a user’s current movements and the upcoming terrain. With autonomous cars as inspiration, they are seeking to develop autonomous exoskeletons that can handle the walking task without human input, Laschowski says.”

TECHNOLOGY
Microsoft Buys AI Speech Tech Company Nuance for $19.7 Billion
James Vincent | The Verge
“The $19.7 billion acquisition of Nuance is Microsoft’s second-largest behind its purchase of LinkedIn in 2016 for $26 billion. It comes at a time when speech tech is improving rapidly, thanks to the deep learning boom in AI, and there are simultaneously more opportunities for its use.”

ENVIRONMENT
Google’s New 3D Time-Lapse Feature Shows How Humans Are Affecting the Planet
Sam Rutherford | Gizmodo
“Described by Google Earth director Rebecca Moore as the biggest update to Google Earth since 2017, Timelapse in Google Earth combines more than 24 million satellite photos, two petabytes of data, and 2 million hours of CPU processing time to create a 4.4-terapixel interactive view showing how the Earth has changed from 1984 to 2020.”

GENETICS
The Genetic Mistakes That Could Shape Our Species
Zaria Gorvett | BBC
“New technologies may have already introduced genetic errors to the human gene pool. How long will they last? And how could they affect us? …According to [Stanford’s Hank] Greely, who has written a book about the implications of He [Jiankui]’s project, the answer depends on what the edits do and how they’re inherited.”

SPACE
The Era of Reusability in Space Has Begun
Eric Berger | Ars Technica
“As [Earth orbit] becomes more cluttered [due to falling launch costs], the responsible thing is to more actively refuel, recycle, and dispose of satellites. Northrop Grumman has made meaningful progress toward such a future of satellite servicing. As a result, reusability is now moving into space.”

COMPUTING
100 Million More IoT Devices Are Exposed—and They Won’t Be the Last
Lily Hay Newman | Wired
“Over the last few years, researchers have found a shocking number of vulnerabilities in seemingly basic code that underpins how devices communicate with the internet. Now a new set of nine such vulnerabilities are exposing an estimated 100 million devices worldwide, including an array of internet-of-things products and IT management servers.”

Image Credit: Naitian (Tony) Wang / Unsplash Continue reading

Posted in Human Robots

#439100 Video Friday: Robotic Eyeball Camera

Video Friday is your weekly selection of awesome robotics videos, collected by your Automaton bloggers. We’ll also be posting a weekly calendar of upcoming robotics events for the next few months; here's what we have so far (send us your events!):

RoboSoft 2021 – April 12-16, 2021 – [Online Conference]
ICRA 2021 – May 30-5, 2021 – Xi'an, China
RoboCup 2021 – June 22-28, 2021 – [Online Event]
DARPA SubT Finals – September 21-23, 2021 – Louisville, KY, USA
WeRobot 2021 – September 23-25, 2021 – Coral Gables, FL, USA
Let us know if you have suggestions for next week, and enjoy today's videos.

What if seeing devices looked like us? Eyecam is a prototype exploring the potential future design of sensing devices. Eyecam is a webcam shaped like a human eye that can see, blink, look around and observe us.

And it's open source, so you can build your own!

[ Eyecam ]

Looks like Festo will be turning some of its bionic robots into educational kits, which is a pretty cool idea.

[ Bionics4Education ]

Underwater soft robots are challenging to model and control because of their high degrees of freedom and their intricate coupling with water. In this paper, we present a method that leverages the recent development in differentiable simulation coupled with a differentiable, analytical hydrodynamic model to assist with the modeling and control of an underwater soft robot. We apply this method to Starfish, a customized soft robot design that is easy to fabricate and intuitive to manipulate.

[ MIT CSAIL ]

Rainbow Robotics, the company who made HUBO, has a new collaborative robot arm.

[ Rainbow Robotics ]

Thanks Fan!

We develop an integrated robotic platform for advanced collaborative robots and demonstrates an application of multiple robots collaboratively transporting an object to different positions in a factory environment. The proposed platform integrates a drone, a mobile manipulator robot, and a dual-arm robot to work autonomously, while also collaborating with a human worker. The platform also demonstrates the potential of a novel manufacturing process, which incorporates adaptive and collaborative intelligence to improve the efficiency of mass customization for the factory of the future.

[ Paper ]

Thanks Poramate!

In Sevastopol State University the team of the Laboratory of Underwater Robotics and Control Systems and Research and Production Association “Android Technika” performed tests of an underwater anropomorphic manipulator robot.

[ Sevastopol State ]

Thanks Fan!

Taiwanese company TCI Gene created a COVID test system based on their fully automated and enclosed gene testing machine QVS-96S. The system includes two ABB robots and carries out 1800 tests per day, operating 24/7. Every hour 96 virus samples tests are made with an accuracy of 99.99%.

[ ABB ]

A short video showing how a Halodi Robotics can be used in a commercial guarding application.

[ Halodi ]

During the past five years, under the NASA Early Space Innovations program, we have been developing new design optimization methods for underactuated robot hands, aiming to achieve versatile manipulation in highly constrained environments. We have prototyped hands for NASA’s Astrobee robot, an in-orbit assistive free flyer for the International Space Station.

[ ROAM Lab ]

The new, improved OTTO 1500 is a workhorse AMR designed to move heavy payloads through demanding environments faster than any other AMR on the market, with zero compromise to safety.

[ ROAM Lab ]

Very, very high performance sensing and actuation to pull this off.

[ Ishikawa Group ]

We introduce a conversational social robot designed for long-term in-home use to help with loneliness. We present a novel robot behavior design to have simple self-reflection conversations with people to improve wellness, while still being feasible, deployable, and safe.

[ HCI Lab ]

We are one of the 5 winners of the Start-up Challenge. This video illustrates what we achieved during the Swisscom 5G exploration week. Our proof-of-concept tele-excavation system is composed of a Menzi Muck M545 walking excavator automated & customized by Robotic Systems Lab and IBEX motion platform as the operator station. The operator and remote machine are connected for the first time via a 5G network infrastructure which was brought to our test field by Swisscom.

[ RSL ]

This video shows LOLA balancing on different terrain when being pushed in different directions. The robot is technically blind, not using any camera-based or prior information on the terrain (hard ground is assumed).

[ TUM ]

Autonomous driving when you cannot see the road at all because it's buried in snow is some serious autonomous driving.

[ Norlab ]

A hierarchical and robust framework for learning bipedal locomotion is presented and successfully implemented on the 3D biped robot Digit. The feasibility of the method is demonstrated by successfully transferring the learned policy in simulation to the Digit robot hardware, realizing sustained walking gaits under external force disturbances and challenging terrains not included during the training process.

[ OSU ]

This is a video summary of the Center for Robot-Assisted Search and Rescue's deployments under the direction of emergency response agencies to more than 30 disasters in five countries from 2001 (9/11 World Trade Center) to 2018 (Hurricane Michael). It includes the first use of ground robots for a disaster (WTC, 2001), the first use of small unmanned aerial systems (Hurricane Katrina 2005), and the first use of water surface vehicles (Hurricane Wilma, 2005).

[ CRASAR ]

In March, a team from the Oxford Robotics Institute collected a week of epic off-road driving data, as part of the Sense-Assess-eXplain (SAX) project.

[ Oxford Robotics ]

As a part of the AAAI 2021 Spring Symposium Series, HEBI Robotics was invited to present an Industry Talk on the symposium's topic: Machine Learning for Mobile Robot Navigation in the Wild. Included in this presentation was a short case study on one of our upcoming mobile robots that is being designed to successfully navigate unstructured environments where today's robots struggle.

[ HEBI Robotics ]

Thanks Hardik!

This Lockheed Martin Robotics Seminar is from Chad Jenkins at the University of Michigan, on “Semantic Robot Programming… and Maybe Making the World a Better Place.”

I will present our efforts towards accessible and general methods of robot programming from the demonstrations of human users. Our recent work has focused on Semantic Robot Programming (SRP), a declarative paradigm for robot programming by demonstration that builds on semantic mapping. In contrast to procedural methods for motion imitation in configuration space, SRP is suited to generalize user demonstrations of goal scenes in workspace, such as for manipulation in cluttered environments. SRP extends our efforts to crowdsource robot learning from demonstration at scale through messaging protocols suited to web/cloud robotics. With such scaling of robotics in mind, prospects for cultivating both equal opportunity and technological excellence will be discussed in the context of broadening and strengthening Title IX and Title VI.

[ UMD ] Continue reading

Posted in Human Robots

#439042 How Scientists Used Ultrasound to Read ...

Thanks to neural implants, mind reading is no longer science fiction.

As I’m writing this sentence, a tiny chip with arrays of electrodes could sit on my brain, listening in on the crackling of my neurons firing as my hands dance across the keyboard. Sophisticated algorithms could then decode these electrical signals in real time. My brain’s inner language to plan and move my fingers could then be used to guide a robotic hand to do the same. Mind-to-machine control, voilà!

Yet as the name implies, even the most advanced neural implant has a problem: it’s an implant. For electrodes to reliably read the brain’s electrical chatter, they need to pierce through the its protective membrane and into brain tissue. Danger of infection aside, over time, damage accumulates around the electrodes, distorting their signals or even rendering them unusable.

Now, researchers from Caltech have paved a way to read the brain without any physical contact. Key to their device is a relatively new superstar in neuroscience: functional ultrasound, which uses sound waves to capture activity in the brain.

In monkeys, the technology could reliably predict their eye movement and hand gestures after just a single trial—without the usual lengthy training process needed to decode a movement. If adopted by humans, the new mind-reading tech represents a triple triumph: it requires minimal surgery and minimal learning, but yields maximal resolution for brain decoding. For people who are paralyzed, it could be a paradigm shift in how they control their prosthetics.

“We pushed the limits of ultrasound neuroimaging and were thrilled that it could predict movement,” said study author Dr. Sumner Norman.

To Dr. Krishna Shenoy at Stanford, who was not involved, the study will finally put ultrasound “on the map as a brain-machine interface technique. Adding to this toolkit is spectacular,” he said.

Breaking the Sound Barrier
Using sound to decode brain activity might seem preposterous, but ultrasound has had quite the run in medicine. You’ve probably heard of its most common use: taking photos of a fetus in pregnancy. The technique uses a transducer, which emits ultrasound pulses into the body and finds boundaries in tissue structure by analyzing the sound waves that bounce back.

Roughly a decade ago, neuroscientists realized they could adapt the tech for brain scanning. Rather than directly measuring the brain’s electrical chatter, it looks at a proxy—blood flow. When certain brain regions or circuits are active, the brain requires much more energy, which is provided by increased blood flow. In this way, functional ultrasound works similarly to functional MRI, but at a far higher resolution—roughly ten times, the authors said. Plus, people don’t have to lie very still in an expensive, claustrophobic magnet.

“A key question in this work was: If we have a technique like functional ultrasound that gives us high-resolution images of the brain’s blood flow dynamics in space and over time, is there enough information from that imaging to decode something useful about behavior?” said study author Dr. Mikhail Shapiro.

There’s plenty of reasons for doubt. As the new kid on the block, functional ultrasound has some known drawbacks. A major one: it gives a far less direct signal than electrodes. Previous studies show that, with multiple measurements, it can provide a rough picture of brain activity. But is that enough detail to guide a robotic prosthesis?

One-Trial Wonder
The new study put functional ultrasound to the ultimate test: could it reliably detect movement intention in monkeys? Because their brains are the most similar to ours, rhesus macaque monkeys are often the critical step before a brain-machine interface technology is adapted for humans.

The team first inserted small ultrasound transducers into the skulls of two rhesus monkeys. While it sounds intense, the surgery doesn’t penetrate the brain or its protective membrane; it’s only on the skull. Compared to electrodes, this means the brain itself isn’t physically harmed.

The device is linked to a computer, which controls the direction of sound waves and captures signals from the brain. For this study, the team aimed the pulses at the posterior parietal cortex, a part of the “motor” aspect of the brain, which plans movement. If right now you’re thinking about scrolling down this page, that’s the brain region already activated, before your fingers actually perform the movement.

Then came the tests. The first looked at eye movements—something pretty necessary before planning actual body movements without tripping all over the place. Here, the monkeys learned to focus on a central dot on a computer screen. A second dot, either left or right, then flashed. The monkeys’ task was to flicker their eyes to the most recent dot. It’s something that seems easy for us, but requires sophisticated brain computation.

The second task was more straightforward. Rather than just moving their eyes to the second target dot, the monkeys learned to grab and manipulate a joystick to move a cursor to that target.

Using brain imaging to decode the mind and control movement. Image Credit: S. Norman, Caltech
As the monkeys learned, so did the device. Ultrasound data capturing brain activity was fed into a sophisticated machine learning algorithm to guess the monkeys’ intentions. Here’s the kicker: once trained, using data from just a single trial, the algorithm was able to correctly predict the monkeys’ actual eye movement—whether left or right—with roughly 78 percent accuracy. The accuracy for correctly maneuvering the joystick was even higher, at nearly 90 percent.

That’s crazy accurate, and very much needed for a mind-controlled prosthetic. If you’re using a mind-controlled cursor or limb, the last thing you’d want is to have to imagine the movement multiple times before you actually click the web button, grab the door handle, or move your robotic leg.

Even more impressive is the resolution. Sound waves seem omnipresent, but with focused ultrasound, it’s possible to measure brain activity at a resolution of 100 microns—roughly 10 neurons in the brain.

A Cyborg Future?
Before you start worrying about scientists blasting your brain with sound waves to hack your mind, don’t worry. The new tech still requires skull surgery, meaning that a small chunk of skull needs to be removed. However, the brain itself is spared. This means that compared to electrodes, ultrasound could offer less damage and potentially a far longer mind reading than anything currently possible.

There are downsides. Focused ultrasound is far younger than any electrode-based neural implants, and can’t yet reliably decode 360-degree movement or fine finger movements. For now, the tech requires a wire to link the device to a computer, which is off-putting to many people and will prevent widespread adoption. Add to that the inherent downside of focused ultrasound, which lags behind electrical recordings by roughly two seconds.

All that aside, however, the tech is just tiptoeing into a future where minds and machines seamlessly connect. Ultrasound can penetrate the skull, though not yet at the resolution needed for imaging and decoding brain activity. The team is already working with human volunteers with traumatic brain injuries, who had to have a piece of their skulls removed, to see how well ultrasound works for reading their minds.

“What’s most exciting is that functional ultrasound is a young technique with huge potential. This is just our first step in bringing high performance, less invasive brain-machine interface to more people,” said Norman.

Image Credit: Free-Photos / Pixabay Continue reading

Posted in Human Robots