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AI-powered robot learns how to harvest tomatoes more efficiently 🇺🇸 The Discovery A new AI-powered robot is reshaping how we think about agricultural efficiency. Unlike previous machines that simply detected ripe tomatoes, this robot takes it a step further by predicting how easy each tomato will be to harvest. It’s not just about seeing red anymore; it’s about understanding the entire picking process. This approach has significantly improved its success rate, achieving an impressive 81%. As the robot makes its decisions, it can even switch angles to optimize its harvest. This new level of machine intelligence could change the way we view robots in farming, potentially leading to a future where humans and robots work seamlessly side by side in the fields. 🇪🇸 El Descubrimiento Un nuevo robot impulsado por inteligencia artificial está transformando nuestra percepción de la eficiencia agrícola. A diferencia de las máquinas anteriores que simplemente...

What I’ve learned from 25 years of automated science, and what the future holds: an interview with Ross King 🇺🇸 The Discovery Ross King’s journey into automated science began with a simple yet intriguing question: Could a machine independently conduct scientific research? In 2009, this question led to "Adam," the world’s first robot scientist. Adam wasn't just a tool but an autonomous agent capable of formulating hypotheses, conducting experiments, and interpreting data in genetics. The concept was groundbreaking at the time, challenging our perceptions of what machines could achieve within scientific realms. As I spoke with King, I could sense his excitement about those early days. It was clear that Adam represented more than technological progress; it was a step toward a new way of thinking about science itself. 🇪🇸 El Descubrimiento El viaje de Ross King hacia la ciencia automatizada comenzó con una pregunta simple pero intrigante...

Scientists Build Living Robots With Nervous Systems 🇺🇸 The Discovery Scientists have taken a bold step in robotics by creating living robots with nervous systems. Unlike traditional robots that are inspired by biological systems, these new creations are composed entirely of living cells. The research, recently published in Advanced Science, describes how these small, free-swimming entities are capable of self-organization. They even have neurons that can form functional circuits on their own, allowing them to respond to their environment. This development marks a significant shift from merely imitating life to using life itself to build machines. It’s fascinating to think of the possibilities this opens up, though I do wonder about the ethical implications. 🇪🇸 El Descubrimiento Científicos han dado un paso audaz en la robótica al crear robots vivientes con sistemas nerviosos. A diferencia de los robots tradicionales inspirados en sistemas biológi...

NASA Invites Media to Rollout Event for Artemis III Moon Rocket Stage 🇺🇸 The Discovery NASA's Artemis III mission is set to make headlines as the space agency prepares to roll out the largest section of its Space Launch System (SLS) rocket. This event marks a significant milestone in the journey to return humans to the Moon. On April 20, at the Michoud Assembly Facility in New Orleans, the top four-fifths of the SLS core stage will be revealed. This section, integral for propelling astronauts to our lunar neighbor, contains massive tanks for liquid hydrogen and oxygen. These elements will power the rocket's engines. As someone who's always been fascinated by space exploration, I can't help but feel a sense of awe imagining this enormous structure—one step closer to touching the Moon again. 🇪🇸 El Descubrimiento La misión Artemis III de la NASA está lista para acaparar titulares mientras la agencia espacial se prepara para desplegar...

“Giant superatoms” could finally solve quantum computing’s biggest problem 🇺🇸 The Discovery Researchers at Chalmers University of Technology in Sweden have introduced a fascinating concept in the field of quantum computing: giant superatoms. This idea presents a new type of quantum system that could address some of the persistent challenges in constructing reliable quantum computers. Quantum computers, unlike classical ones, handle information in ways that can be both incredibly fast and amazingly complex. However, they are notoriously unstable and error-prone. The Chalmers team believes that by using these giant superatoms, they can find a new method to protect and control quantum information, which could be vital for achieving scalable quantum computing. This discovery might be what the quantum world has been waiting for to push forward effectively. 🇪🇸 El Descubrimiento Investigadores de la Universidad Tecnológica de Chalmers en Suecia han introduc...

Light tightens young pea stems, revealing a new brake on plant growth 🇺🇸 The Discovery In a fascinating study led by Professor Kouichi Soga from Osaka Metropolitan University, researchers explored how light influences the growth of young pea stems. They employed a unique technique to examine the adhesion between the outer epidermal layer and the inner tissues of these stems. This study, now published in Physiologia Plantarum, reveals that pea stems grown in light conditions show enhanced tissue adhesion. The findings suggest a new mechanism by which light regulates plant growth, acting as a brake on stem elongation. This discovery adds a fresh layer of understanding to the intricate ways plants interact with their environment, specifically how they respond to light, a critical factor for survival and adaptation. 🇪🇸 El Descubrimiento En un estudio fascinante liderado por el Profesor Kouichi Soga de la Universidad Metropolitana de Osaka, los invest...

Squishy Photonic Switches Promise Fast Low Power Logic 🇺🇸 The Discovery In recent years, scientists have been exploring the fascinating world of photonics, where light, not electricity, is used to transfer information. A breakthrough has been made with the development of squishy photonic switches. These devices use soft materials like polymers and gels to manipulate light, promising faster computation with lower energy consumption. Unlike traditional electronic devices that rely on metals, these soft materials are easier to produce and pose fewer environmental risks. The challenge lies in controlling light in these flexible materials without electricity, a hurdle researchers are beginning to overcome with new techniques. 🇪🇸 El Descubrimiento En los últimos años, los científicos han estado explorando el fascinante mundo de la fotónica, donde se utiliza la luz en lugar de la electricidad para transferir información. Se ha logrado un avance con el desar...