Materials can deform plastically along atomic-scale line defects called dislocations. Many technical applications such as forging are based on this fundamental process, but the power of dislocations is also exploited in the crumple zones of cars, for instance, where dislocations protect lives by transforming energy into plastic deformation. FAU researchers have now found a way of manipulating individual dislocations directly on the atomic scale.
Using advanced in situ electron microscopy, the researchers in Prof. Erdmann Spiecker’s group have opened up new ways to explore the fundamentals of plasticity. They have published their findings in Science Advances.
Russia’s most famous weapons manufacturer has unveiled a 13ft tall walking killer robot operated by pilots who sit inside it.
Kalashnikov Concern presented the state-of-the-art bulletproof robot along with utility vehicles and new assault rifles at the Army 2018 fair at the Patriot Park just outside Moscow.
The gold robot, called Igorek, is still in development and its creators do not wish to reveal all of its features until they have finished.
One of the most significant AI milestones in history was quietly ushered into being this summer. We speak of the quest for Artificial General Intelligence (AGI), probably the most sought-after goal in the entire field of computer science. With the introduction of the Impala architecture, DeepMind, the company behind AlphaGo and AlphaZero, would seem to finally have AGI firmly in its sights.
Let’s define AGI, since it’s been used by different people to mean different things. AGI is a single intelligence or algorithm that can learn multiple tasks and exhibits positive transfer when doing so, sometimes called meta-learning. During meta-learning, the acquisition of one skill enables the learner to pick up another new skill faster because it applies some of its previous “know-how” to the new task. In other words, one learns how to learn — and can generalize that to acquiring new skills, the way humans do. This has been the holy grail of AI for a long time.
As it currently exists, AI shows little ability to transfer learning towards new tasks. Typically, it must be trained anew from scratch. For instance, the same neural network that makes recommendations to you for a Netflix show cannot use that learning to suddenly start making meaningful grocery recommendations. Even these single-instance “narrow” AIs can be impressive, such as IBM’s Watson or Google’s self-driving car tech. However, these aren’t nearly so much so an artificial general intelligence, which could conceivably unlock the kind of recursive self-improvement variously referred to as the “intelligence explosion” or “singularity.”
Alt-aviation wizard Burt Rutan set out to design a plane that could haul rockets to the edge of space. Then he persuaded Microsoft cofounder Paul Allen to build a dual-fuselage beast with a wingspan longer than a football field.
Just like the way that cellphones used to be only for the rich, soon the idea of taking a personal flying machine to work is going to be a part of everyday life. Don’t believe us? Here are six examples of personal flying cars and even a personal jetsuit that will help us commute.
In astronomy, cutting-edge technology often begins with a bunch of bulldozers, busted rocks, and dump trucks.
So it goes with the Giant Magellan Telescope (GMT), which will be the world’s largest and most powerful when it sees “first light” in 2024. Astronomers hope to use the huge observatory to study the ancient universe and look for signs of alien life.
Construction crews atop a Chilean mountain range broke ground for the $US1 billion project on Tuesday.
The ADAM Research Project, an acronym for Acquisition & Data Analysis of Materials, will focus on the collection and scientific evaluation of material samples obtained through reliable reports of advanced aerospace vehicles of unknown origin.
As a first step, TTS Academy has established a contract with EarthTech International, Inc., (www.earthtech.org) a well-respected research think tank in Austin, Texas, to evaluate the properties of the available materials. Under the leadership of Dr. Harold E. Puthoff, a former Senior Advisor and Subcontractor to the Pentagonfs AATIP program (Advanced Aerospace Threat Identification Program) and current VP of Technology for TTS Academy, EarthTech is well-positioned to head up this materials research plan.
