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Sep 20, 2024

Allen Institute for Immunology unveils landmark Human Immune Health Atlas

Posted by in categories: health, mapping

The Allen Institute for Immunology has released its first Human Immune Health Atlas, a comprehensive single-cell reference dataset that offers unprecedented insight into the landscape of healthy human immune cells from childhood through adulthood.


Comprehensive dataset maps the landscape of healthy immune cells across the human lifespan.

Sep 19, 2024

Nat Geo Leverages Cutting-Edge Technology To Bring The Amazon To Life

Posted by in categories: augmented reality, mapping

Storytelling has evolved beyond mere narration—it’s now about immersion, interaction, and creating a deep emotional connection. Few organizations understand this better than National Geographic, a brand renowned for bringing the natural world to life through visually stunning, fact-driven content. With their latest digital experience, “Into the Amazon,” National Geographic has raised the bar even higher, blending cutting-edge technology with unparalleled storytelling to offer audiences a front-row seat to one of the planet’s most vital ecosystems: the Amazon rainforest.

At a time when the world’s environmental challenges are more pressing than ever, National Geographic’s “Into the Amazon” doesn’t just inform viewers; it transforms how we understand the Amazon’s role in the global ecosystem. This article explores how innovative technologies—such as interactive 3D mapping, augmented reality, and immersive media formats —are being harnessed to deliver a uniquely engaging experience. It also reflects on the broader implications for the future of digital storytelling, where technology and narrative merge to create impactful, lasting impressions.

As digital media continues to dominate, audience expectations have shifted. Passive consumption is no longer enough—today’s audiences crave interaction, engagement, and experiences that go beyond the screen. Immersive storytelling, particularly in the environmental and scientific fields, has emerged as a powerful tool to captivate and educate.

Sep 16, 2024

Gravity Mapping Detects Large Hidden Structures Under Surface of Mars

Posted by in categories: government, mapping, space

A new analysis of Mars’ gravitational field has revealed hidden structures buried beneath the remains of an ancient ocean.

The work, which was presented this week at the Europlanetary Science Congress in Berlin, could add to a growing body of evidence that suggests the Red Planet may not be as geologically “dead,” or inactive, as once believed.

Overlaid with a thick and smooth layer of sediment which may have once been a seabed, the structures are significantly denser than their surroundings — though a more precise explanation of what they might be has so far eluded researchers.

Sep 11, 2024

Combining the power of AI and the connectome to predict brain cell activity

Posted by in categories: mapping, robotics/AI

With maps of the connections between neurons and artificial intelligence methods, researchers can now do what they never thought possible: predict the activity of individual neurons without making a single measurement in a living brain.

For decades, neuroscientists have spent countless hours in the lab painstakingly measuring the activity of neurons in living animals to tease out how the brain enables behavior. These experiments have yielded groundbreaking insights into how the brain works, but they have only scratched the surface, leaving much of the brain unexplored.

Now, researchers are using artificial intelligence and the connectome—a map of neurons and their connections created from —to predict the role of neurons in the living brain. Their paper has been published in the journal Nature.

Sep 6, 2024

Treating Epidemics as Feedback Loops

Posted by in categories: biotech/medical, engineering, mapping, mathematics

During the worst days of the COVID-19 pandemic, many of us became accustomed to news reports on the reproduction number R, which is the average number of cases arising from a single infected case. If we were told that R was much greater than 1, that meant the number of infections was growing rapidly, and interventions (such as social distancing and lockdowns) were necessary. But if R was near to 1, then the disease was deemed to be under control and some relaxation of restrictions could be warranted. New mathematical modeling by Kris Parag from Imperial College London shows limitations to using R or a related growth rate parameter for assessing the “controllability” of an epidemic [1]. As an alternative strategy, Parag suggests a framework based on treating an epidemic as a positive feedback loop. The model produces two new controllability parameters that describe how far a disease outbreak is from a stable condition, which is one with feedback that doesn’t lead to growth.

Parag’s starting point is the classical mathematical description of how an epidemic evolves in time in terms of the reproduction number R. This approach is called the renewal model and has been widely used for infectious diseases such as COVID-19, SARS, influenza, Ebola, and measles. In this model, new infections are determined by past infections through a mathematical function called the generation-time distribution, which describes how long it takes for someone to infect someone else. Parag departs from this traditional approach by using a kind of Fourier transform, called a Laplace transform, to convert the generation-time distribution into periodic functions that define the number of the infections. The Laplace transform is commonly adopted in control theory, a field of engineering that deals with the control of machines and other dynamical systems by treating them as feedback loops.

The first outcome of applying the Laplace transform to epidemic systems is that it defines a so-called transfer function that maps input cases (such as infected travelers) onto output infections by means of a closed feedback loop. Control measures (such as quarantines and mask requirements) aim to disrupt this loop by acting as a kind of “friction” force. The framework yields two new parameters that naturally describe the controllability of the system: the gain margin and the delay margin. The gain margin quantifies how much infections must be scaled by interventions to stabilize the epidemic (where stability is defined by R = 1). The delay margin is related to how long one can wait to implement an intervention. If, for example, the gain margin is 2 and the delay margin is 7 days, then the epidemic is stable provided that the number of infections doesn’t double and that control measures are applied within a week.

Sep 3, 2024

How the next ‘supercontinent’ will form

Posted by in category: mapping

Year 2022 face_with_colon_three


It might seem that the world’s landmasses are fixed, but as Richard Fisher discovers, there are major changes coming.

Nearly 500 years ago, the Flemish cartographer Geradus Mercator produced one of the world’s most important maps.

Continue reading “How the next ‘supercontinent’ will form” »

Sep 1, 2024

3 supermassive black holes — each weighing more than 90 million Suns located in a single galaxy

Posted by in categories: cosmology, mapping, physics

In the study, an international team of astronomers identified three supermassive black holes lurking near the center of galaxy NGC 6,240, which has been visibly disturbed by the gravitational effects of a triple merger. Because NGC 6,240 is so close—just 300 million light-years away—astronomers had previously assumed that its odd shape was the product of a typical merger between two galaxies. They believed that these two galaxies collided as they increased to hundreds of miles per second, and that they are still combining. Therefore, the researchers expected to find two supermassive black holes hiding near the center of the cosmic collision.

Instead, the team discovered three supermassive black holes, each weighing more than 90 million Suns, when they used 3D mapping techniques to peer into the core of NGC 6240. (To put this into perspective, Sagittarius A*, the supermassive black hole at the center of the Milky Way, is roughly 4 million solar masses in weight.) Furthermore, the three massive black holes of NGC 6,240 are confined to an area that is less than 3,000 light-years across, or less than 1% of the galaxy in which they are found.

“Up until now, such a concentration of three supermassive black holes had never been discovered in the universe,” said study co-author Peter Weilbacher of the Leibniz Institute for Astrophysics Potsdam in a press release. This is the first time that scientists have seen a group of supermassive black holes packed into such a small area, despite the fact that they have previously discovered three distinct galaxies and the black holes that are connected to them on a collision course.

Aug 17, 2024

Mapping the Textures of Thicker Magnets

Posted by in categories: mapping, materials

A soft x-ray magnetic imaging technique makes possible the study of a wide range of magnetic materials.

Aug 2, 2024

Mapping AI’s Rapid Advance

Posted by in categories: mapping, robotics/AI

Former Google CEO Eric Schmidt weighs in on where AI is headed, when to “pull the plug” and how to cope with China.

Jul 30, 2024

Most cyber ransoms are paid in secret but a new law could change that

Posted by in categories: business, cybercrime/malcode, government, law, mapping

Australian businesses are paying untold amounts of ransom to hackers, but the government is hoping to claw back some visibility with a landmark cybersecurity law.

While major ransomware attacks on companies such as MediSecure, Optus and Latitude have grabbed headlines for breaching the privacy of millions, the practice of quietly paying off cybercriminals has flourished in the dark.

The situation has deteriorated to the point that the government’s original ambition for an outright ban on ransom payments has been nixed, for now, and the focus has shifted to mapping the scale of the problem.

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