In rethinking whether AI is sentient, we are asking bigger questions about cognition, human-machine interaction and even our own consciousness
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Evidence of ‘lightning-fast’ evolution found after Chicxulub impact
The asteroid that struck the Earth 66 million years ago devastated life across the planet, wiping out the dinosaurs and other organisms in a hail of fire and catastrophic climate change. But new research shows that it also set the stage for life to rebound astonishingly quickly.
New species of plankton appeared fewer than 2,000 years after the world-altering event, according to research led by scientists at The University of Texas at Austin and published in Geology.
Lead author Chris Lowery, a research associate professor at the University of Texas Institute for Geophysics (UTIG) at the Jackson School of Geosciences, said that it’s a remarkably quick evolutionary feat that has never been seen before in the fossil record. Typically, new species appear on roughly million-year time frames.
Physiologic Pacing in Heart Failure
Cardiac physiologic pacing, also known as cardiac resynchronization therapy, is indicated in patients with heart failure, reduced left ventricular ejection fraction (LVEF) of 50% or less, and either a high (or anticipated high) ventricular pacing burden or a wide QRS complex. Traditionally, physiologic pacing has been achieved with biventricular pacing with a right ventricular lead and a coronary sinus branch lead. Randomized trials involving more than 10,000 patients with heart failure have shown clinical, exercise, and quality-of-life benefits associated with biventricular pacing, as well as improved LVEF and reduced mitral regurgitation and ventricular volumes. These benefits are greatest in patients with left bundle-branch block and a QRS duration of 150 msec or longer.
Do We Actually Live Inside a Black Hole? Let’s Explore the Evidence
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Hello and welcome! My name is Anton and in this video, we will talk about the claims that we live inside a black hole.
Links:
https://en.wikipedia.org/wiki/Black_hole_cosmology.
https://arxiv.org/pdf/2505.23877
https://arxiv.org/pdf/1910.10819v2
#blackhole #unvierse #astronomy.
0:00 Is universe basically a black hole?
1:10 Defining a black hole and the universe.
2:30 How would universe end up inside a black hole?
5:00 Explanations for how this may work.
6:35 Rotation and angular momentum.
8:05 What this could explain.
9:35 Counter evidence and why it’s probably not a black hole.
13:00 Rotation explanation using the cosmic web.
14:00 Conclusions.
Enjoy and please subscribe.
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Biomimetic multimodal tactile sensing enables human-like robotic perception
Robots That Feel: A New Multimodal Touch System Closes the Gap with Human Perception.
In a major advance for robotic sensing, researchers have engineered a biomimetic tactile system that brings robots closer than ever to human-like touch. Unlike traditional tactile sensors that detect only force or pressure, this new platform integrates multiple sensing modalities into a single ultra-thin skin and combines it with large-scale AI for data interpretation.
At the heart of the system is SuperTac, a 1-millimeter-thick multimodal tactile layer inspired by the multispectral structure of pigeon vision. SuperTac compresses several physical sensing modalities — including multispectral optical imaging (from ultraviolet to mid-infrared), triboelectric contact sensing, and inertial measurements — into a compact, flexible skin. This enables simultaneous detection of force, contact position, texture, material, temperature, proximity and vibration with micrometer-level spatial precision. The sensor achieves better than 94% accuracy in classifying complex tactile features such as texture, material type, and slip dynamics.
However, the hardware alone isn’t enough: rich, multimodal tactile data need interpretation. To address this, the team developed DOVE, an 8.5-billion-parameter tactile language model that functions as a computational interpreter of touch. By learning patterns in the high-dimensional sensor outputs, DOVE provides semantic understanding of tactile interactions — a form of “touch reasoning” that goes beyond raw signal acquisition.
From a neurotech-inspired perspective, this work mirrors principles of biological somatosensation: multiple receptor types working in parallel, dense spatial encoding, and higher-order processing for perceptual meaning. Integrating rich physical sensing with model-based interpretation is akin to how the somatosensory cortex integrates mechanoreceptor inputs into coherent percepts of texture, shape and motion. Such hardware-software co-design — where advanced materials, optics, electronics and AI converge — offers a pathway toward embodied intelligence in machines that feel and interpret touch much like biological organisms do.
Biomimetic multimodal tactile sensing enables human-like robotic perception.
Utility of Stereoelectroencephalography in the Treatment of Drug-Resistant Epilepsy
About one-third of people with epilepsy have drug-resistant disease—but surgery can be transformative. Drs Ihnen & Arya at Cincinnati Children’s explore how SEEG is reshaping presurgical evaluation in DRE. https://ow.ly/M15c50Y0Y0W
Epilepsy society american epilepsy society epilepsy foundation of america.
DRE can be effectively treated with epilepsy surgery, leading to seizure freedom in appropriately selected individuals.
Subcellular depletion of importin β1 impairs presynaptic local translation and spatial memory
Scientists have mapped out an importin-based pathway that enables neurons to maintain synaptic plasticity and spatial memory despite their unusually elongated shape.
Read more in ScienceSignaling.
Axonal localization of importin β1 is required for presynaptic functions that support spatial memory tasks.