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Blog – Page 5054

Urban air mobility (UAM) company HT Aero continues to make progress toward the “flying car” it has promised to deliver by 2024. XPeng Huitian (aka HT Aero) recently posted a video to Weibo demonstrating an eVTOL prototype taking off, flying around, and being maneuvered like a car. It has the XPeng Motors steering wheel and everything – check it out.

HT Aero is the rebranded name of XPeng Huitian, a majority-owned entity of XPeng Inc. and founder He Xiaopeng. Since its foundation in 2013, HT Aero has conducted over 15,000 safely manned flights with the goal of combining automotive and aerospace technologies to develop safe, domestic electric flying vehicles at scale.

This began with the T1 eVTOL (electric vertical takeoff and landing) vehicle in 2019, followed by the X1 in 2020, which appears to be the model demonstrated in the video below, given that it doesn’t have a roof like the X2.

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WHO Director-General Tedros Adhanom Ghebreyesus, PhD, said today that infections have been detected in 58 countries. Our World in Data lists 7,075 confirmed cases worldwide.

Testing is a challenge

“Testing remains a challenge, and it’s highly probable that there are a significant number of cases not being picked up,” he warned during a speech. “I plan to reconvene the Emergency Committee so they are updated on the current epidemiology and evolution of the outbreak, and implementation of counter measures.”

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Engineers have developed a new class of smart textiles that can shape-shift and turn a two-dimensional material into 3D structures.

The team from UNSW Sydney’s Graduate School of Biomedical Engineering, and Tyree Foundation Institute of Health Engineering (Tyree iHealthE), led by Dr. Thanh Nho Do, have produced a material which is constructed from tiny soft artificial “muscles”—which are long silicon tubes filled with fluid which are manipulated to move via hydraulics.

These , which are surrounded by a helical coil of traditional fibers, can be programmed to contract or expand into a variety of shapes depending on its initial structure.

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US-based intelligent automation provider, Automation Anywhere has expanded its collaboration with ICT Academy to upskill additional thousands more students from engineering and non-engineering institutes in Robotic Process Automation (RPA).

The partnership aims to complete more than 500,000 RPA-related courses over the next two years. More than 300,000 certifications have already been issued under the program, the company said.

Through this learning initiative students will access content from Automation Anywhere University (AAU). The program provides role-based learning trails, courses and certifications based on Automation 360 — the company’s AI-powered, cloud native intelligent automation platform.

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The entirety of the known universe is teeming with an infinite number of molecules. But what fraction of these molecules have potential drug-like traits that can be used to develop life-saving drug treatments? Millions? Billions? Trillions? The answer: novemdecillion, or 1060. This gargantuan number prolongs the drug development process for fast-spreading diseases like COVID-19 because it is far beyond what existing drug design models can compute. To put it into perspective, the Milky Way has about 100 thousand million, or 108, stars.

In a paper that will be presented at the International Conference on Machine Learning (ICML), MIT researchers developed a geometric deep-learning model called EquiBind that is 1,200 times faster than one of the fastest existing computational molecular docking models, QuickVina2-W, in successfully binding drug-like molecules to proteins. EquiBind is based on its predecessor, EquiDock, which specializes in binding two proteins using a technique developed by the late Octavian-Eugen Ganea, a recent MIT Computer Science and Artificial Intelligence Laboratory and Abdul Latif Jameel Clinic for Machine Learning in Health (Jameel Clinic) postdoc, who also co-authored the EquiBind paper.

Before can even take place, drug researchers must find promising drug-like molecules that can bind or “dock” properly onto certain protein targets in a process known as . After successfully docking to the protein, the binding drug, also known as the ligand, can stop a protein from functioning. If this happens to an essential protein of a bacterium, it can kill the bacterium, conferring protection to the human body.

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Yes, it is true, cats are known to possess certain math skills in their own feline manner. Although it is obvious, they don’t have the knowledge of trigonometry or geometry as we do, but they sure understand the concept of ‘more and less’.

Every cat owner knows they get notified by their cat if the food dish is getting empty or the water is relatively less in the bowl. Furthermore, as they grow, cats can adeptly tell the difference between heights.

Albeit, this is still an ongoing study and researchers have found similarities between the thinking process of fish and that of cats. Fish swim in schools, and that’s how they learn to count. Likewise, adult cats or rather mother cats can identify if one of the kittens is missing.

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