May 29, 2023
The number of billion-dollar disasters from severe US storms is on the rise
Posted by Michael Taylor in category: futurism
Every year since 2011 has seen at least six severe storms, costing the US billions of dollars.
Every year since 2011 has seen at least six severe storms, costing the US billions of dollars.
The country has led the research effort for many decades and now wants to be the first to achieve the goal.
A partnership between a private entity and Japan Aerospace Exploration Agency (JAXA) is working toward beaming solar power from space. If all goes well, the partnership could run its first trial as early as 2025, just a couple of years from now, Japanese media outlet Nikkei.
Space-based solar power was first suggested by Czech-born NASA engineer Peter Glaser in 1968. Geopolitical conditions just a couple of years later led to the oil shock decade of the 1970s, when the idea received support from NASA and the U.S. Department of Energy.
The company is also focusing on advertising and its core segment of gaming.
Chipmaker Nvidia has unveiled a slew of artificial intelligence (AI) products in its bid to stay ahead of the game and join the trillion-dollar valuation club with the likes of Apple, Microsoft, and Amazon. The announcement comes close to the market rally of NVIDIA stock, which rose over 25 percent last week.
Once known for making chips for gaming geeks, Nvidia is now at the core of the AI frenzy that has gripped the world after its graphic processing units (GPUs) have been a critical component of the capacities of AI tools. The company’s A100 and H100 chips have become household names after tools like ChatGPT became popular last year.
Discover how researchers have developed an innovative analog computer that utilizes water waves to predict chaotic events.
Have you ever wondered what the future holds? Do you think a computer learns from the past and predicts the future? Most of us would think of advanced AI models when posed with this question, but what if we told you that it could happen in a completely different way?
Picture a tank of water instead of a traditional circuitry processor. As surprising as it may sound, a group of researchers has built just that—a unique analog computer that utilizes water waves to forecast chaotic events.
Gui Haichao, a professor at Beijing’s top aerospace research institute, will join two others on a mission to the Tiangong space station.
China will send its first civilian astronaut to orbit with the latest crewed launch to the country’s Tiangong space station.
The mission, scheduled to launch tomorrow morning, May 30, will lift a crew of three aboard the Shenzhou 16 spacecraft attached to a Long March-2F rocket, a report from South China Morning Post reveals.
– Jane Skinner, PhD, lead researcher.
In addition, physical activity and sedentary levels weren’t measured, which may have produced a different effect on the outcome.
UC Berkeley researchers developed an automated hydroponic system called AlphaGarden, which combines a commercial gantry robot farming system and a plant growth simulator. And it arguably cares for plants better than a professional human.
How should we respond to the idea that advances in AI pose catastrophic risks for the wellbeing of humanity?
Two sets of arguments have been circulating online for many years, but in light of recent events, are now each mutating into new forms and are attracting much more attention from the public. The first set argues that AI risks are indeed serious. The second set is skeptical. It argues that the risks are exaggerated, or can easily be managed, and are a distraction from more important issues and opportunities.
A breakthrough in fluorescence microscopy has been achieved by the research group of Ralf Jungmann at the Max Planck Institute of Biochemistry (MPIB) and Ludwig-Maximilians-Universität (LMU) Munich. The team developed Resolution Enhancement by Sequential Imaging (RESI), a revolutionary technique that enhances the resolution of fluorescence microscopy down to the Ångström scale. This innovation is poised to usher in a paradigm shift in our approach to study biological systems with thus far unprecedented detail.
Cells, the fundamental units of life, contain a plethora of intricate structures, processes and mechanisms that uphold and perpetuate living systems. Many cellular core components, such as DNA, RNA, proteins and lipids, are just a few nanometers in size. This makes them substantially smaller than the resolution limit of traditional light microscopy. The exact composition and arrangement of these molecules and structures is thus often unknown, resulting in a lack of mechanistic understanding of fundamental aspects of biology.
In recent years, super-resolution techniques have made leaps and bounds to resolve many sub-cellular structures below the classical diffraction limit of light. Single molecule localization microscopy, or SMLM, is a super-resolution approach that can resolve structures on the order of ten nanometers in size by temporally separating their individual fluorescence emission.
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Last year generative artificial intelligence (AI) took the world by storm as advancements populated news and social media. Investors were swarming the space as many recognized its potential across industries. According to IDC, there is already a 26.9% increase in global AI spending compared to 2022. And this number is forecast to exceed $300 billion in 2026.
It’s also caused a shift in how people view AI. Before, people thought of artificial intelligence as an academic, high-tech pursuit. It used to be that the most talked-about example of AI was autonomous vehicles. But even with all the buzz, it had yet to be a widely available and applied form of consumer-grade AI.