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South Korean transportation giant Hyundai has announced the creation of an advanced air mobility (AAM) company, Supernal LLC. The company will pursue the development of next-generation passenger electric vertical takeoff and landing (eVTOL) vehicles, and aims to conduct its first commercial flight in 2028.

“We’re developing a commercially viable Advanced Air Mobility product from the start, designing and manufacturing our vehicle to the highest safety, noise, efficiency, and affordability standards,” said Ben Diachun, Supernal’s chief technology officer. “Our growing team, which includes veterans of aerospace, automotive, and other deep-tech industries, is engineering sustainable vehicles that have the potential to evolve how we live, work, and play.”

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US scientists have developed a new form of drug that promotes the regeneration of cells and reversed paralysis in mice with spinal injuries, allowing them to walk again within four weeks of treatment.

The research was published in the journal Science on Thursday, and the team of Northwestern University scientists behind it hope to approach the Food and Drug Administration (FDA) as early as next year to propose human trials.

“The aim of our research was to develop a translatable therapy that could be brought to the clinic to prevent individuals from becoming paralyzed after major trauma or disease,” Northwestern’s Samuel Stupp, who led the study, told AFP.

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Engineering students have designed an autonomous robot that can find and open doors in 3D digital simulations. Now they’re building the hardware for an autonomous robot that not only can open its own doors but also can find the nearest electric wall outlet to recharge without human help.

One flaw in the notion that robots will take over the world is that the world is full of doors.

And doors are kryptonite to robots, said Ou Ma, an aerospace engineering professor at the University of Cincinnati.

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Uncovering the mechanisms of learning via synaptic plasticity is a critical step towards understanding how our brains function and building truly intelligent, adaptive machines. Researchers from the University of Bern propose a new approach in which algorithms mimic biological evolution and learn efficiently through creative evolution.

Our brains are incredibly adaptive. Every day, we form , acquire new knowledge, or refine existing skills. This stands in marked contrast to our current computers, which typically only perform pre-programmed actions. At the core of our adaptability lies . Synapses are the connection points between neurons, which can change in different ways depending on how they are used. This synaptic plasticity is an important research topic in neuroscience, as it is central to learning processes and memory. To better understand these processes and build adaptive machines, researchers in the fields of neuroscience and (AI) are creating models for the mechanisms underlying these processes. Such models for learning and plasticity help to understand biological information processing and should also enable machines to learn faster.

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Nvidia’s Omniverse, billed as a “metaverse for engineers,” has grown to more than 700 companies and 70,000 individual creators that are working on projects to simulate digital twins that replicate real-world environments in a virtual space.

The Omniverse is Nvidia’s simulation and collaboration platform delivering the foundation of the metaverse, the universe of virtual worlds that are all interconnected, like in novels such as Snow Crash and Ready Player One. Omniverse is now moving from beta to general availability, and it has been extended to software ecosystems that put it within reach of 40 million 3D designers.

And today during Nvidia CEO Jensen Huang’s keynote at the Nvidia GTC online conference, Nvidia said it has added features such as Omniverse Replicator, which makes it easier to train AI deep learning neural networks, and Omniverse avatar, which makes it simple to create virtual characters that can be used in the Omniverse or other worlds.

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All known atomic nuclei and therefore almost all visible matter consists of protons and neutrons, yet many of the properties of these omnipresent natural building blocks remain unknown. As an uncharged particle, the neutron in particular resists many types of measurement and 90 years after its discovery there are still many unanswered questions regarding its size and lifetime, among other things.

The neutron consists of three quarks which whirl around inside it, held together by gluons. Physicists use electromagnetic form factors to describe this dynamic inner structure of the neutron. These form factors represent an average distribution of electric charge and magnetization within the neutron and can be determined by means of experimentation.

Blank space on the form factor map filled with precise data.

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The rise in insect farming means questions about insect sentience and slaughter are no longer just philosophical: The well-being of trillions of creatures is at stake.

What is the life of a cricket worth?

Insect farming is a rapidly growing industry, with hundreds of companies worldwide rearing insects at industrial scales. The global value of insect farming is expected to surpass US$1.18 billion by 2023.

Farmed insects, or “mini-livestock,” refers to insects such as crickets and mealworms raised for the sole purpose of being sold as food or animal feed.

Continue reading “More people are eating bugs — but is it ethical to farm insects for food?” | >