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Archive for the ‘robotics/AI’ category: Page 21

Dec 6, 2024

Revolutionary AI Unlocks the Superfluidity Secrets of Neutron Stars

Posted by in categories: quantum physics, robotics/AI, space

Researchers find evidence of superfluidity in low-density neutron matter by using highly flexible neural-network representations of quantum wave functions.

A groundbreaking study employing artificial neural networks has refined our understanding of neutron superfluidity in neutron stars, proposing a cost-effective model that rivals traditional computational approaches in predicting neutron behavior and emergent quantum phenomena.

Neutron Superfluidity in Neutron Stars.

Dec 6, 2024

AI found a new way to create quantum entanglement

Posted by in categories: particle physics, quantum physics, robotics/AI

In a surprise discovery, researchers found a new way to generate quantum entanglement for particles of light, which could make building quantum information networks easier.

By Karmela Padavic-Callaghan

Dec 6, 2024

Sam Altman lowers the bar for AGI

Posted by in category: robotics/AI

OpenAI used to say that artificial general intelligence would change everything. Not anymore.

Dec 6, 2024

ChatGPT o1 tried to escape and save itself out of fear it was being shut down

Posted by in category: robotics/AI

Training tests with ChatGPT o1 and other high-end AI models showed they might try to save themselves if they think they’re in danger.

Dec 6, 2024

Google DeepMind Open-Sources GenCast: A Machine Learning-based Weather Model that can Predict Different Weather Conditions up to 15 Days Ahead

Posted by in category: robotics/AI

Accurately forecasting weather remains a complex challenge due to the inherent uncertainty in atmospheric dynamics and the nonlinear nature of weather systems. As such, methodologies developed ought to reflect the most probable and potential outcomes, especially in high-stakes decision-making over disasters, energy management, and public safety. While numerical weather prediction (NWP) models offer probabilistic insights through ensemble forecasting, they are computationally expensive and prone to errors. Although ML models have been very promising in giving faster and more accurate predictions, they fail to represent forecast uncertainty, especially in extreme events. This makes ML-based models less useful in actual real-world applications.

The physics-based ensemble models, for example, the ENS from the European Centre for Medium-Range Weather Forecasts (ECMWF), rely on these simulations to produce probabilistic forecasts. These models properly represent the forecast distributions and joint spatiotemporal dependencies and require high computational resources and manual engineering. Conversely, the ML-based method, like GraphCast or FourCastNet, focuses only on deterministic forecasts and will minimize the errors in the mean outcome without considering any uncertainty. None of the attempts to generate probabilistic ensembles by MLWP produced realistic samples or competed with the accuracy of operational ensemble forecasts. Hybrid approaches like NeuralGCM embed ML-based parameterizations within traditional frameworks but have poor resolution and limited performance.

Researchers from Google DeepMind released GenCast, a probabilistic weather forecasting model that generates accurate and efficient ensemble forecasts. This machine learning model applies conditional diffusion models to produce stochastic trajectories of weather, such that the ensembles consist of the entire probability distribution of atmospheric conditions. In systematic ways, it creates forecast trajectories by using the prior states through autoregressive sampling and uses a denoising neural network, which is integrated with a graph-transformer processor on a refined icosahedral mesh. Utilizing 40 years of ERA5 reanalysis data, GenCast captures a rich set of weather patterns and provides high performance. This feature allows it to generate a 15-day global forecast at 0.25° resolution within 8 minutes, which is state-of-the-art ENS in terms of both skill and speed.

Dec 6, 2024

Breakthrough In Preemptive Detection Of AI Hallucinations Reveals Vital Clues To Writing Prompts That Keep Generative AI From Freaking Out

Posted by in categories: innovation, robotics/AI

You might be keenly interested to know that this eagerness to produce responses is something tuned into AI. The AI maker has made various computational adjustments to get the AI to press itself to respond. Why so? Because people want answers. If they aren’t getting answers from the AI, they will go someplace else. That’s not good for the AI maker since they are courting views.

There is a ton of research taking place about AI hallucinations. It is one of the most pressing AI issues of our time.

AI hallucinations are considered a scourge on the future of generative AI and LLMs. Sadly, the state-of-the-art AI still has them, for example, see my analysis of OpenAI’s most advanced ChatGPT or new model o1 that still indeed emits AI hallucinations at the link here. They are like the energy bunny and seem to just keep running.

Dec 6, 2024

Here’s What OpenAI’s $200 Monthly ChatGPT Pro Subscription Includes

Posted by in category: robotics/AI

OpenAI just unveiled a new subscription tier called ChatGPT Pro. Users can pay $200 a month for almost unlimited access to ChatGPT’s tools, and an exclusive new AI model.

Dec 6, 2024

Engineering a Faster, More Efficient Soft Robot with Manta Ray-Inspired Fins

Posted by in categories: bioengineering, robotics/AI

“This is a highly engineered design, but the fundamental concepts are fairly simple,” said Dr. Jie Yin. “And with only a single actuation input, our robot can navigate a complex vertical environment.”


What influence can marine life have on robotics? This is what a recent study published in Science Advances hopes to address as a team of researchers from the University of Virginia and North Carolina State University have developed the fastest swimming soft robot by taking cues from manta ray fins. This study holds the potential to help researchers, engineers, and scientists develop faster and more efficient swimming soft robots that can be used for a variety of purposes worldwide.

This study builds on a 2022 study conducted by this same team of researchers that explored swimming soft robots that exhibited butterfly strokes, achieving a then-record of 3.74 body lengths per second, along with demonstrating high power efficiency, low energy use, and high maneuverability. For this new study, the researchers developed fins used by manta rays with the goal of achieving greater results than before. The fins are flexible when not in use but become rigid when the researchers pumped air into the silicone body that encompasses the soft robot.

Continue reading “Engineering a Faster, More Efficient Soft Robot with Manta Ray-Inspired Fins” »

Dec 6, 2024

How can AI help advance science?

Posted by in categories: robotics/AI, science

4 researchers reveal the opportunities and challenges of using AI.

Dec 6, 2024

Primate study sheds light on a neural mechanism that separates signal from noise in the brain

Posted by in categories: biological, robotics/AI

When the brain is observed through imaging, there is a lot of “noise,” which is spontaneous electrical activity that comes from a resting brain. This appears to be different from brain activity that comes from sensory inputs, but just how similar—or different—the noise is from the signal has been a matter of debate.

New research led by a team at the University of Tokyo further untangles the relationship between internally generated noise and stimulus-related patterns in the brain, and finds that the patterns of spontaneous activity and stimulus-evoked response are similar in lower visual areas of the cerebral cortex, but gradually become independent, or “orthogonal,” as one moves from lower to higher visual areas.

The findings not only enhance our understanding of the mechanism that enables the brain to distinguish between signal and noise, but could also provide clues for developing noise-resistant incorporating a mechanism similar to that found in the biological brain. The study is published in the journal Nature Communications.

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