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WTF Fun Fact 13625 – AI and Realistic Faces

November 19, 2023November 9, 2023 by WTF

Researchers at The Australian National University (ANU) have found that AI-generated faces now appear to be more realistic faces than those of actual humans. But that’s only true if the AI is generating the faces of white people.

This development raises crucial questions about AI’s influence on our perception of identity.

Training Bias in AI

This study reveals a concerning trend. People often see AI-generated white faces as more human than real ones. Yet, this isn’t the case for faces of people of color.

Dr. Amy Dawel attributes this to AI’s training bias. AI algorithms have been fed more white faces than any other. This imbalance could increase racial biases online. It’s especially troubling in professional settings, like headshot creation. AI often alters skin and eye colors of people of color, aligning them more with white features.

The Illusion of AI Realistic Faces

Elizabeth Miller, co-author of the study, highlights a critical issue. People don’t realize they’re being fooled by AI faces. This unawareness is alarming. Those who mistake AI faces for real ones are often the most confident in their judgment.

Although physical differences between AI and human faces exist, they’re often misinterpreted. People see AI’s proportionate features as human-like. Yet, AI technology is evolving rapidly. Soon, distinguishing AI from human faces could become even more challenging.

This trend could significantly impact misinformation spread and identity theft. Dr. Dawel calls for more transparency around AI.

Keeping AI open to researchers and the public is essential. It helps identify potential problems early. Public education about AI’s realism is also crucial. An informed public can be more skeptical about online images.

Public Awareness and Tools for Detection

As AI blurs the line between real and synthetic, new challenges emerge. We need tools to identify AI imposters accurately. Dr. Dawel suggests educating people about AI’s realism. Such knowledge could foster skepticism about online images. This approach might reduce risks associated with advanced AI.

ANU’s study marks a significant moment in AI development. AI’s ability to create faces now surpasses human perception in certain cases. The implications are vast, touching on identity and the potential for misuse.

As AI evolves, transparency, education, and technological solutions will be key. We must navigate these challenges collectively to ensure AI’s responsible and beneficial use.

—WTF fun facts

Source: “AI faces look more real than actual human face” — ScienceDaily

WTF Fun Fact 13623 – DIRFA

November 18, 2023November 8, 2023 by WTF

Researchers at Nanyang Technological University, Singapore (NTU Singapore), have created DIRFA (DIverse yet Realistic Facial Animations), a groundbreaking program.

Imagine having just a photo and an audio clip, and voila – you get a 3D video with realistic facial expressions and head movements that match the spoken words! This advancement in artificial intelligence is not just fascinating; it’s a giant stride in digital communication.

DIRFA is unique because it can handle various facial poses and express emotions more accurately than ever before. The secret behind DIRFA’s magic? It’s been trained on a massive database – over one million clips from more than 6,000 people. This extensive training enables DIRFA to perfectly sync speech cues with matching facial movements.

The Widespread Impact of DIRFA

DIRFA’s potential is vast and varied. In healthcare, it could revolutionize how virtual assistants interact, making them more engaging and helpful. It’s also a beacon of hope for individuals with speech or facial impairments, helping them communicate more effectively through digital avatars.

Associate Professor Lu Shijian, the leading mind behind DIRFA, believes this technology will significantly impact multimedia communication. Videos created using DIRFA, with their realistic lip-syncing and expressive faces, are a leap forward in technology, combining advanced AI and machine learning techniques.

Dr. Wu Rongliang, another key player in DIRFA’s development, points out the complexity of speech variations and how they’re interpreted. With DIRFA, the nuances in speech, including emotional undertones and individual speech traits, are captured with unparalleled accuracy.

The Science Behind DIRFA’s Realism

Creating realistic animations from audio is no small feat. The NTU team faced the challenge of matching numerous potential facial expressions to audio signals. DIRFA, with its sophisticated AI model, captures these intricate relationships. Trained on a comprehensive database, DIRFA skillfully maps facial animations based on the audio it receives.

Assoc Prof Lu explains how DIRFA’s modeling allows for transforming audio into an array of lifelike facial animations, producing authentic and expressive talking faces. This level of detail is what sets DIRFA apart.

Future Enhancements

The NTU team is now focusing on making DIRFA more versatile. They plan to integrate a wider array of facial expressions and voice clips to enhance its accuracy and expression range. Their goal is to develop an even more user-friendly and adaptable tool to use across various industries.

DIRFA represents a significant leap in how we can interact with and through technology. It’s not just a tool; it’s a bridge to a world where digital communication is as real and expressive as face-to-face conversations. As technology continues to evolve, DIRFA stands as a pioneering example of the incredible potential of AI in enhancing our digital experiences.

—WTF fun facts

Source: “Realistic talking faces created from only an audio clip and a person’s photo” — ScienceDaily

WTF Fun Fact 13622 – 3D Printed Robotic Hand

November 18, 2023November 7, 2023 by WTF

A significant leap in 3D printing has emerged from ETH Zurich and a U.S. startup. They’ve created a robotic hand that mimics human bones, ligaments, and tendons. Unlike traditional methods, this innovation uses slow-curing polymers. These materials offer improved elasticity and durability.

Led by Thomas Buchner and Robert Katzschmann, the project utilized thiolene polymers. These materials quickly return to their original form after bending. Hence, they are perfect for simulating a robotic hand’s elastic components. This choice represents a shift from fast-curing plastics, expanding the possibilities in robotics.

Soft Robotics for a Robotic Hand

Soft robotics, illustrated by this 3D-printed hand, brings several advantages. These robots are safer around humans and more capable of handling delicate items. Such advancements pave the way for new applications in medicine and manufacturing.

The project introduced a novel 3D laser scanning technique. It accurately detects surface irregularities layer by layer. This method is essential for using slow-curing polymers effectively in 3D printing.

ETH Zurich researchers collaborated with Inkbit, an MIT spin-off, for this venture. They are now exploring more complex structures and applications. Meanwhile, Inkbit plans to commercialize this new printing technology.

This breakthrough is more than a technical achievement. It marks a shift in robotic engineering, blending advanced materials with innovative printing techniques. Such developments could lead to safer, more efficient, and adaptable robotic systems.

Educational and Practical Benefits

The success in printing a lifelike robotic hand has implications for both education and industry. It bridges the gap between theory and practice, potentially revolutionizing robotics in various settings.

The ability to print intricate robotic structures in a single process opens doors to futuristic applications. Robots could become more common in households and industries, enhancing efficiency and convenience.

This milestone in robotic engineering demonstrates the power of innovation and collaboration. As we enter a new chapter in robotics, the possibilities for applying this technology are vast and exciting.

—WTF fun facts

Source: “Printed robots with bones, ligaments, and tendons” — Science Daily

WTF Fun Fact 13620 – The Mars Effect

November 18, 2023November 6, 2023 by WTF

The Mars Effect, a term entrenched in both astrological and scientific discussions, emerged from the work of French psychologist and statistician Michel Gauquelin. Known for his interest in astrology, Gauquelin devoted significant research to scrutinize its claims scientifically. His journey into this controversial subject led to a startling discovery that blurred the lines between astronomy and astrology.

Gauquelin’s Methodical Approach

Gauquelin’s approach to studying astrology was unique. He conducted experiments with rigor, often collaborating with his wife Francoise. One notable experiment involved astrologers who tried to differentiate birth charts of criminals from responsible citizens, resulting in outcomes aligned with mere chance. Another intriguing experiment involved presenting the horoscope of a notorious criminal as Gauquelin’s own, revealing the generic nature of astrological readings.

However, Gauquelin’s most significant and controversial work was his study on the birthdates of over 2,000 notable French professionals. This study birthed the concept of the Mars Effect.

Unveiling the Mars Effect

The Mars Effect posited an unusual correlation: certain planets, particularly Mars, prominently featured in the birth charts of individuals excelling in specific professions. Notably, Mars was frequently observed in the charts of eminent athletes. This finding deviated sharply from Gauquelin’s other research, which generally debunked astrological claims.

Gauquelin’s findings sparked a wave of intrigue and skepticism. His work underwent multiple re-evaluations and replications by both advocates and critics, yet the results remained inconclusive. This ambiguity left the scientific community divided. While some viewed the Mars Effect as a statistical anomaly or a fluke, others saw it as potential evidence of an astrological influence on human destinies.

The Mars Effect haunted Gauquelin throughout his life. Despite his initial stance against astrology’s scientific validity, this particular finding seemed to contradict his general skepticism. This paradoxical situation led Gauquelin to a state of personal and professional turmoil. Tragically, it culminated in his suicide in 1991 after he ordered all his research files to be destroyed.

Legacy of the Mars Effect

Today, the Mars Effect remains a subject of curiosity and debate. It stands at a unique crossroads where astrology meets empirical investigation. Gauquelin’s work, despite its controversial nature, contributed significantly to the discourse on astrology’s place in scientific study.

This represents more than a mere astrological anomaly; it symbolizes the complex relationship between belief and evidence-based science. It challenges the boundaries of what we understand about the influence of celestial bodies on human life. While the scientific community continues to debate its validity, it serves as a reminder of the enigmatic and often unexplained phenomena that persist in our universe.

—WTF fun facts

Source: “The Mars Effect” – The Guardian

WTF Fun Fact 13618 – Hong Kong’s Snake Pizza

November 11, 2023November 3, 2023 by WTF

Pizza Hut, the iconic American pizza chain, has taken a bold leap into the world of fusion cuisine in Hong Kong by introducing a pizza that’s causing quite a stir. This isn’t just any pizza; it’s topped with snake meat. Collaborating with Ser Wong Fun, a renowned local restaurant with over a century of history, Pizza Hut is reinventing traditional flavors and bringing a slice of local heritage to the pizza scene.

Pizza Hut Serving Snake Pizza

The snake pizza is a blend of traditional snake stew elements like shredded snake meat, black mushrooms, and Chinese dried ham. This blend rests atop the familiar pizza base, marrying the East with the West in an unexpected way. The pizza also swaps out the classic tomato sauce for abalone sauce, adding to the luxurious twist of flavors.

Snake stew has been a delicacy in Hong Kong, particularly enjoyed as the weather turns colder. Many locals believe in its warming and medicinal benefits. Pizza Hut’s new creation banks on this traditional belief, promising a nourishing experience that challenges the conventional palate. It’s a modern take on a dish deeply rooted in the region’s culinary culture.

Reactions to Pizza Hut’s snake pizza are as varied as the ingredients on the pizza itself. Some diners find the concept intriguing, drawn to the idea of snake meat’s rich texture and high-protein content. Others, particularly those not accustomed to the idea of snakes as food, express apprehension at the thought of trying this unconventional topping.

Expertise in Every Slice

To ensure authenticity, Pizza Hut has drawn on the expertise of Ser Wong Fun, which specializes in preparing snake meat delicately. The snake breeds used in the recipe, including Chinese rat snakes and banded kraits, are carefully selected to provide a balance of flavors that are both tantalizing and savory, suitable for the season.

This isn’t Pizza Hut Hong Kong’s first foray into localized menus. In addition to the snake pizza, they’re also introducing a pizza featuring Chinese preserved sausages, a nod to another local favorite. This trend of customizing menus to reflect local tastes is not exclusive to Hong Kong. Pizza Hut Taiwan has experimented with toppings like durian and pig blood curds, while Pizza Hut Japan has offered Tonkotsu ramen pizza, each reflecting the culinary preferences of their respective regions.

The snake pizza is a limited-time offering, available until November 22. It’s a bold statement in the world of fast food, where innovation and tradition collide to create new experiences for adventurous foodies. Whether it becomes a beloved staple or a seasonal novelty, Pizza Hut’s snake pizza has certainly captured the attention of pizza enthusiasts and culinary explorers alike.

—WTF fun facts

Source:

WTF Fun Fact 13615 – Mars’ Green Glow

November 10, 2023November 2, 2023 by WTF

Scientists at the University of Liège have captured the first sight of Mars’ green glow.

Did you know Mars emits a glow in the visible range during the night? It was a phenomenon never before seen until now. The discovery by the University of Liège’s scientists offers new insights into the dynamics of the Red Planet’s upper atmosphere and its seasonal variations.

Mars’ Green Glow

The Trace Gas Orbiter (TGO) satellite, a part of the European Space Agency’s Mars program, played a pivotal role in this discovery. Equipped with the UVIS-NOMAD instrument, the TGO was initially purposed for ultraviolet observations. However, scientists, including Jean-Claude Gérard from the University of Liège, redirected the instrument to capture images of Mars’ limb, leading to this unprecedented discovery.

During night observations, the researchers detected emissions between 40 and 70 km in altitude. These emissions result from oxygen atoms, created in the Martian summer atmosphere and carried to winter latitudes by winds. “As these atoms recombine with CO2, they emit a visible glow,” explains Lauriane Soret, an LPAP researcher. This glow is primarily concentrated in the Martian poles, where the convergence of oxygen atoms occurs most significantly.

The study, encompassing three years of Martian atmospheric data, has revealed that this visible glow fluctuates with the Martian seasons. With each half of the Martian year, lasting 687 Earth days, the glow switches from one hemisphere to the other. This rhythmic change offers scientists a new way to track atmospheric changes on Mars.

A Bright Future for Martian Research

The implications of this research extend far beyond the academic realm. “The intensity of this night glow could guide future astronauts from orbit or on the Martian ground,” says Gérard. The potential for simple instruments to monitor atmospheric flows could significantly enhance future Martian missions and research.

The observations made by the TGO satellite provide a unique opportunity to delve into the dynamics of the Martian upper atmosphere. By analyzing these glows, scientists like Benoit Hubert from LPAP suggest that remote sensing of these emissions can serve as an excellent tool for probing the composition and movements within Mars’ elusive atmospheric layer.

In summary, this first-time observation of Mars’ night glow in the visible spectrum opens up a new frontier in Martian exploration. It not only helps us understand the intricate atmospheric dynamics of our neighboring planet but also holds promise for supporting future explorations and potentially aiding human presence on Mars.

The Glow of Martian Nights

Understanding Mars’ Green Glow and Atmosphere Dynamics

— WTF fun facts

Source: “Glow in the visible range detected for the first time in the Martian night” — ScienceaDaily

WTF Fun Fact 13614 – Chimp Warfare

November 10, 2023November 1, 2023 by WTF

University of Cambridge scientists have uncovered that chimpanzees, much like humans, use strategic high ground for reconnaissance on rival groups during “chimp warfare.” This discovery took place in the West African forests of Côte d’Ivoire. It showcases our closest evolutionary relatives employing a warfare tactic previously thought to be uniquely human.

Chimp Warfare from the Treetops

During a comprehensive three-year study, researchers monitored two neighboring groups of chimpanzees. Their movement patterns revealed a striking preference for elevated terrain when approaching the shared border zone where skirmishes could occur. Researchers noted that the chimpanzees were twice as likely to climb hills en route to this contested area compared to when they ventured within their territory. This suggests a calculated use of the landscape for strategic advantage.

At these vantage points, the primates demonstrated a notable change in behavior. Rather than engaging in their typical noisy foraging or eating, they opted for quiet rest. This behavior allowed them to listen for distant sounds of potential rivals. It also let them make informed decisions about advancing into enemy territory while minimizing the risk of direct conflict.

Strategic Warfare Among Non-Human Primates

The study’s lead author, Dr. Sylvain Lemoine, emphasized the significance of this behavior. “The strategic use of landscape for territorial control reflects a cognitive complexity in chimpanzees that mirrors human war-like strategies,” he explained. This finding suggests that such tactical behavior may have been a part of our evolutionary history. It’s traceable back to the proto-warfare of prehistoric hunter-gatherer societies.

Over the course of their research, the team amassed more than 21,000 hours of tracking data from 58 chimpanzees. The study’s significance lies in its contribution to understanding chimpanzee behavior and implications for evolutionary biology and anthropology.

The study conducted at the Taï Chimpanzee Project indicates that chimpanzees conduct ‘border patrols’ to establish and protect their territory. These patrols are carried out with precision and coordination, reminiscent of a silent hunt. Inselbergs, or isolated rocky outcrops, frequently served as the chosen points for these reconnaissance activities.

The researchers’ observations included instances where these patrols led to expansions of territory or, in rare cases, violent confrontations. Despite these risks, the primary use of hilltop reconnaissance appears to be the avoidance of direct conflict. Chimpanzees preferring to gather information from a distance and reduce the likelihood of violent encounters.

Insights Into Primate Behavior

The discovery that chimpanzees use tactical reconnaissance is a testament to their intelligence and adaptability. More territory means better access to food and higher chances of successful mating, which, as previous research by Lemoine suggests, leads to larger communities with higher birth rates and reduced rival pressure.

This study provides a fascinating glimpse into the complex social behaviors of chimpanzees, offering evidence that tactical thinking and strategic planning are not solely human traits.

—WTF fun facts

Source: “Chimpanzees use hilltops to conduct reconnaissance on rival groups, study finds” — ScienceDaily

WTF Fun Fact 13613 – First Chimeric Monkey

November 10, 2023November 1, 2023 by WTF

Researchers have made a monumental stride in primate research by making the first chimeric monkey.

This marks the first successful birth of a chimeric monkey from embryonic stem cell lines. This scientific achievement has profound implications for the fields of genetic engineering, species conservation, and biomedical studies.

Understanding Chimerism in Primates

The study, led by senior author Zhen Liu of the Chinese Academy of Sciences, culminated in the birth of a monkey with cells originating from two distinct embryos. Until now, this feat of chimerism had been achieved only in smaller mammals such as rats and mice. Published in the prestigious journal Cell, the research opens new avenues for understanding pluripotency. That’s the capability of stem cells to differentiate into any cell type—in non-human primates and possibly humans.

The cynomolgus monkeys, commonly used in biomedical research, served as the subjects for this groundbreaking experiment. The researchers established nine stem cell lines from blastocyst embryos and selected a subset of these pluripotent cells to inject into early-stage monkey embryos. This meticulous process led to several pregnancies and the birth of six live monkeys. One of these showcased a substantial level of chimerism.

The Making of a Chimeric Monkey

The researchers tagged the stem cells with green fluorescent protein. This enabled them to trace which tissues originated from the stem cells. Extensive analysis revealed that the chimeric monkey exhibited a wide distribution of stem-cell-derived tissues across the brain, heart, kidney, liver, and gastrointestinal tract. Remarkably, the live monkey displayed stem cell contributions ranging from 21% to 92% across various tissues, averaging 67%.

The presence of stem-cell-derived cells in the reproductive tissues was a significant discovery. It underscors the potential for these cells to contribute to the germline and possibly influence future generations.

Implications and Future Directions

The success of this study is not merely academic. It has practical implications, offering the potential to create more precise monkey models for neurological and other biomedical research. By enhancing the understanding of primate cell developmental potential, the study paves the way for innovative approaches in medical science.

Looking ahead, the team aims to refine their method to increase the efficiency of generating chimeric monkeys. They plan to optimize the stem cell cultures and the blastocysts’ environments, hoping to improve the survival rates of these embryos in host animals.

In conclusion, the birth of the first chimeric monkey from embryonic stem cells is a remarkable scientific milestone. It broadens our knowledge of primate biology and holds promise for future applications that could benefit both primate conservation and human health.

—WTF fun facts

Source: “First live birth of a chimeric monkey using embryonic stem cell lines” — Science Daily

WTF Fun Fact 13610 – Creating Plant Biosensors

November 1, 2023October 30, 2023 by WTF

Scientists at the University of California – Riverside have engineered plant biosensors that change color in the presence of specific chemicals.

Someday, the greenery decorating our homes and gardens might soon be ornamental and an environmental watchdog. (Of course, plants are already good indicators of their surroundings since they tend to wilt or die when things get toxic.)

Innovative Plant Biosensors

It all started with a question: What if a simple house plant could alert you about contaminants in your water? Delving deep into this concept, the UC Riverside team made it a reality. In the presence of a banned, toxic pesticide known as azinphos-ethyl, the engineered plant astonishingly turns a shade of beet red. This development offers a visually compelling way to indicate the presence of harmful substances around us.

Ian Wheeldon, an associate professor of chemical and environmental engineering at UCR, emphasized the groundbreaking nature of this achievement. “In our approach, we ensured the plant’s natural metabolism remains unaffected,” he explained. “Unlike earlier attempts where the biosensor component would hinder the plant’s growth or water absorption during stress, our method doesn’t disrupt these essential processes.”

The team’s findings, elaborated in a paper published in Nature Chemical Biology, unveiled the secret behind this transformative process. At the heart of the operation lies a protein known as abscisic acid (ABA). Under stressful conditions like droughts, plants produce ABA, signaling them to conserve water and prevent wilting. The research team unlocked the potential of ABA receptors, training them to latch onto other chemicals besides ABA. When these receptors bind to specific contaminants, the plant undergoes a color change.

From Plant to Yeast: Expanding the Biosensor Spectrum

The UC Riverside team didn’t just stop at plants. They expanded their research horizon to include yeast, turning this organism into a chemical sensor. Remarkably, yeast exhibited the capability to respond to two distinct chemicals simultaneously, a feat yet to be achieved in plants.

Sean Cutler, UCR professor of plant cell biology, highlighted the team’s vision. “Imagine a plant that can detect up to 100 banned pesticides,” he said. “The potential applications, especially in environmental health and defense, are immense. However, there’s a long way to go before we can unlock such extensive sensing capabilities.”

The Path Forward for Plant Biosensors

While the initial results are promising, commercial growth of these engineered plants isn’t on the immediate horizon. Stringent regulatory approvals, which could span years, are a significant hurdle. Moreover, as a nascent technology, there are numerous challenges to overcome before it finds a place in real-world applications, like farming.

Yet, the future looks bright. “The potential extends beyond just pesticides,” Cutler added. “We aim to detect any environmental chemical, including common drugs that sometimes seep into our water supplies. The technology to sense these contaminants is now within reach.”

—WTF fun facts

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