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Tracking the severity and progression of Parkinson’s disease is a complicated but absolutely necessary task that leaves clinicians baffled. Now, according to an MIT report published on Wednesday, there may be a new device that can help physicians do just that.

Monitoring movement and gait speed

The invention is an in-home device that can monitor a patient’s movement and gait speed, “which can be used to evaluate Parkinson’s severity, the progression of the disease, and the patient’s response to medication.”

Unfortunately, researchers think it could be challenging to regulate a super intelligent AI. The explanation is simple: if AI can comprehend information better than humans, our processing power will be limited. We may never be able to govern the super-intelligent AI if we are unable to understand its intellect.

But surely all AI is designed to be human-friendly? Okay, sure. But according to the authors of recent research, if we don’t fully comprehend the scenarios that AI can generate, we cannot design empathy towards humans in artificial intelligence. The authors of the new article contend that we cannot establish rules like “do no harm to humans” until we are aware of the kinds of situations that an AI is likely to encounter. We are unable to impose restrictions once a computer system operates at a level beyond the capacity of our programmers. Researchers quash any hope to stop AI.

This is due to a superintelligence’s multifaceted nature, which makes it potentially capable of mobilizing a variety of resources to accomplish goals that may be beyond human comprehension, let alone being under human control.

Summary: Researchers aim to map and track cellular changes in the human brain over a lifetime.

Source: UCSD

With a five-year, $126 million grant from the National Institutes of Health (NIH), a multi-institution team of researchers at University of California San Diego School of Medicine, Salk Institute for Biological Studies and elsewhere has launched a new Center for Multiomic Human Brain Cell Atlas.

Swirling around the planet’s equator, the rings of Saturn are an obvious indicator that the planet is spinning at a tilt. The belted gas giant rotates at a 26.7-degree angle relative to the plane in which it orbits the sun. Because Saturn’s tilt precesses, like a spinning top, at nearly the same rate as the orbit of its neighbor Neptune.

Neptune is the farthest planet from the sun. In our solar system, it is the fourth-largest planet by size, and third densest. It is named after the Roman god of the sea.

“I need to have the processes in place for rapid fielding and acceptance of these things, and that’s not getting a lot of traction right now,” Space RCO Director Kelly Hammett said Sept. 12 at the Air, Space and Cyber Conference in National Harbor, Md.

The Space RCO aims to develop the first few units of a defense system and then hand them off to Space Systems Command, the Space Force’s acquisition arm, to manage production. Hammett said his team is on track to deliver 10–12 projects over the next three years.

Because most of its programs are classified, the office has not revealed details on the technology and scope of its first deliveries. According to fiscal 2023 budget documents, the Space RCO is supporting an Air Force Research Laboratory effort to use solar energy to provide “logistically agile power” to forces on the ground. Its unclassified budget request included $36 million for that effort and about $9 million to support space capability studies.

Greylock general partner Reid Hoffman interviews OpenAI CEO Sam Altman. The AI research and deployment company’s primary mission is to develop and promote AI technology that benefits humanity. Founded in 2015, the company has most recently been noted for its generative transformer model GPT — 3, which uses deep learning to produce human-like text, and its image-creation platform DALL-E.

This interview took place during Greylock’s Intelligent Future event, a day-long summit featuring experts and entrepreneurs from some of today’s leading artificial intelligence organizations.
You can read a transcript of this interview here: https://greylock.com/greymatter/sam-altman-ai-for-the-next-era/

Were you unable to attend Transform 2022? Check out all of the summit sessions in our on-demand library now! Watch here.

Marketers are standing at a precipice when it comes to strategy and automation. Advanced systems are seen as the next step in marketing, but for many businesses, the concept is still uncharted territory. However, those who don’t adopt the rapidly advancing technology into their marketing plans will quickly be at a huge disadvantage.

According to International Data Corporation (IDC), the U.S. market for AI-powered software, hardware and services is expected to break $120 billion by 2025. The marketing intelligence firm also found that banks and retailers were the biggest spenders on AI, with retail having already invested upwards of $5.9 billion in these systems for marketing alone in 2019. And spending on these advanced systems for this specific purpose has only increased since then. It is evident that algorithmic systems are the future of marketing, and those who don’t invest in them will be left behind.

Welcome to another episode of Conversations with Coleman.

My guest today is David Chalmers. David is a professor of philosophy and neuroscience at NYU and the co-director of NYU Centre for Mind, Brain and Consciousness.

David just released a new book called “Reality+: Virtual Worlds and the Problems of Philosophy”, which we discuss in this episode. We also discuss whether we’re living in a simulation, the progress that’s been made in virtual reality, whether virtual worlds count as real, whether people would and should choose to live in a virtual world, and many other classic questions in the philosophy of mind and more.

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The twisty eruption of a dying star has finally been revealed in all its 3D glory.

A team of scientists led by a high school graduate has reconstructed the complicated and mysterious nebulae that make up one of the most famous stellar ghosts in the sky – the Cat’s Eye Nebula.

Their model revealed the mechanisms that carved out some of the previously unexplained aspects of the nebula’s structure.