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Aug 25, 2020

Artificial Intelligence Will Surveil And Study Released Prisoners

Posted by in categories: habitats, internet, robotics/AI

Artificial intelligence applications are popping up everywhere these days, from our Internet browsing to smart homes and self-driving cars. Now a group of researchers is launching a new AI-led study that will collect data from recently released prisoners. The ultimate goal of the project is to identify – and, ostensibly, one day eliminate – the psychological and physiological triggers that cause recidivism among parolees.

According to project-leads Marcus Rogers and Umit Karabiyik, the resulting data will assist them in conducting a forensic psychological analysis. While the monitoring will be gauged in intervals – not real-time – they believe it will help build a profile of the risky behaviors and stressful triggers that recent parolees face when returning to the outside world.

Aug 25, 2020

Nano-diamond self-charging batteries could disrupt energy as we know it

Posted by in categories: information science, nanotechnology, nuclear energy, particle physics, sustainability, transportation

https://youtube.com/watch?v=ksMXbhftBbM

California company NDB says its nano-diamond batteries will absolutely upend the energy equation, acting like tiny nuclear generators. They will blow any energy density comparison out of the water, lasting anywhere from a decade to 28,000 years without ever needing a charge. They will offer higher power density than lithium-ion. They will be nigh-on indestructible and totally safe in an electric car crash. And in some applications, like electric cars, they stand to be considerably cheaper than current lithium-ion packs despite their huge advantages.

The heart of each cell is a small piece of recycled nuclear waste. NDB uses graphite nuclear reactor parts that have absorbed radiation from nuclear fuel rods and have themselves become radioactive. Untreated, it’s high-grade nuclear waste: dangerous, difficult and expensive to store, with a very long half-life.

Continue reading “Nano-diamond self-charging batteries could disrupt energy as we know it” »

Aug 25, 2020

This Little Baby Boat May Be the Smallest Ship in the Navy

Posted by in category: military

An adorable little tugboat as long as a Ford F-150 is making the rounds on social media, prompting many to call it the “smallest ship in the U.S. Navy.”

At just 19 feet long, the boat is actually “Boomin Beaver” security tug. Originally built to herd logs in waterways, the Navy boat is now an all-purpose vessel that can tow small ships and deploy floating security fences, ensuring that larger submarines, destroyers, and even aircraft carriers don’t receive unwanted visitors.

⚓️ You like badass boats (no matter how small). So do we. Let’s nerd out over them together.

Aug 25, 2020

Origami-inspired miniature manipulator improves precision and control of teleoperated surgical procedures

Posted by in categories: biotech/medical, robotics/AI

Minimally invasive laparoscopic surgery, in which a surgeon uses tools and a tiny camera inserted into small incisions to perform operations, has made surgical procedures safer for both patients and doctors over the last half-century. Recently, surgical robots have started to appear in operating rooms to further assist surgeons by allowing them to manipulate multiple tools at once with greater precision, flexibility, and control than is possible with traditional techniques. However, these robotic systems are extremely large, often taking up an entire room, and their tools can be much larger than the delicate tissues and structures on which they operate.

A collaboration between Wyss Associate Faculty member Robert Wood, Ph.D. and Robotics Engineer Hiroyuki Suzuki of Sony Corporation has brought surgical robotics down to the microscale by creating a new, origami-inspired miniature remote center of motion manipulator (the “mini-RCM”). The robot is the size of a tennis ball, weighs about as much as a penny, and successfully performed a difficult mock surgical task, as described in a recent issue of Nature Machine Intelligence.

“The Wood lab’s unique technical capabilities for making have led to a number of impressive inventions over the last few years, and I was convinced that it also had the potential to make a breakthrough in the field of medical manipulators as well,” said Suzuki, who began working with Wood on the mini-RCM in 2018 as part of a Harvard-Sony collaboration. “This project has been a great success.”

Aug 25, 2020

Heron AI prevails over human in air combat

Posted by in categories: military, robotics/AI

His motto is “Aim high, fly-fight-win.” But for a top U.S. Air Force fighter pilot and weapons school graduate, aiming high—and in one instance aiming low—wasn’t enough to prevail against an AI opponent in a simulated competition last week.

The Defense Advanced Research Project Agency (DARPA) sponsored the AlphaDogfight trials as part of its effort to use AI to help pilots in realtime combat and encourage developers to sign up for its Air Combat Evolution (ACE) program to design AI .

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Aug 25, 2020

Using a smartphone and audio software to pick a physical lock

Posted by in categories: computing, mobile phones

A trio of researchers has found a way to pick an ordinary physical lock using a smartphone with special software. The three, Soundarya Ramesh, Harini Ramprasad, and Jun Han, gave a talk at a workshop called HotMobile 2020 at this year’s International Workshop on Mobile Computing Systems and Applications, outlining their work.

With traditional locks, such as those found on the front doors of most homes, a person inserts the proper (metal) key and then turns it. Doing so pushes up a series of pins in the lock by a certain amount based on the ridges on the key. When the pins are pushed in a way that matches a preset condition, the tumbler can turn, retracting the metal piece of the assembly from its berth, allowing the door to open. In this new effort, the researchers have found that it is possible to record the sounds made as the key comes into contact with the pins and then as the pins move upward, and use to recreate the conditions that produce the same noises. Those conditions can be used to fabricate a metal key to unlock the door. The result is a system the team calls SpiKey, which involves use of a smartphone to record lock clicks, decipher them and then create a key signature for use in creating a new key.

The researchers acknowledged in their presentation that the weak link in their system is recording the key unlocking the door. Because of its nature, they assume that the recording would have to be done secretly so as to not alert a homeowner that their lock is being picked. They suggest that several possible options for wrongdoers, including walking past while holding a microphone, hiding a microphone nearby, or installing software on the victim’s phone. Each has its own risks, they note, which would minimize the likelihood of run-of-the-mill burglars using such an approach. But for high-profile victims, the effort might be worth the risk. They say that they next plan to investigate ways to foil such attacks by modifying traditional locks.

Aug 25, 2020

Researchers develop new system to conduct accurate telomere profiling in less than 3 hours

Posted by in categories: biotech/medical, genetics, life extension

The plastic tips attached to the ends of shoelaces keep them from fraying. Telomeres are repetitive DNA (deoxyribonucleic acid) sequences that serve a similar function at the end of chromosomes, protecting its accompanying genetic material against genome instability, preventing cancers and regulating the aging process.

Each time a in our body, the telomeres shorten, thus functioning like a molecular “clock” of the cell as the shortening increases progressively with aging. An accurate measure of the quantity and length of these telomeres, or “clocks,” can provide vital information if a cell is aging normally, or abnormally, as in the case of cancer.

To come up with an innovative way to diagnose telomere abnormalities, a research team led by Assistant Professor Cheow Lih Feng from the NUS Institute for Health Innovation & Technology (iHealthtech) has developed a novel method to measure the absolute telomere length of individual telomeres in less than three hours. This unique telomere profiling method can process up to 48 samples from low amounts (1 ng) of DNA.

Aug 25, 2020

I am creating mathematical meme magic art for future advanced artificial intelligence to enjoy alongside cosmopolitan intellectuals

Posted by in categories: mathematics, robotics/AI

Aug 25, 2020

Watch the world’s first electric hydrofoil boat in action

Posted by in category: futurism

When six-time Powerboat World Champion Erik Stark climbs aboard a boat, it’s often to rocket toward a gold medal at around 150 mph (240 km/h). But today we’re all getting a chance to go along for a ride as he tests out a very different type of boat: Candela’s electric hydrofoil boat.

The opportunity comes via Stark’s new Team Subtech video where he toured the Candela factory in Stockholm, Sweden.

Aug 25, 2020

Settling the final frontier

Posted by in categories: economics, military, space

An extract from Space 2.0 by Rod Pyle.


At the other extreme is the massive Dyson Sphere, theorized by physicist Freeman Dyson – a metallic globe large enough to hold a star at its centre and contain a human population at a sufficient distance from the star to comfortably support their survival. This is a highly theoretical idea and is more of a thought experiment than a workable design, at least with any foreseeable technology.

Concerns have been raised about what kinds of governments might take hold in space settlements, and what possible risks they might face from ever more powerful economic and military establishments back on Earth.

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