Sebastian Fernandez Alberdi
574 abonnés -
Computer nerd
Computer nerd
574 abonnés
Communautés et collections
Posts
Post partagé.
+Alfredo Canziani just released several videos about ML (not watched yet, but sure it’s worth)
https://github.com/Atcold/pytorch-Deep-Learning-Minicourse
https://github.com/Atcold/pytorch-Deep-Learning-Minicourse
Post partagé.
Well, what is usually called intermittent fasting
Time-restricted feeding improves health in mice with defective circadian clocks - It turns out timing really is everything, at least when it comes to the diets of lab mice that have their circadian clocks disrupted. A new study published in Cell Metabolism is reporting that limiting the times when the animals eat can correct obesity and other metabolic problems that are normally seen in these mice, even when they're fed an unhealthy diet. The results suggest a previously unknown link betwee...
Post partagé.
Injection wells can induce earthquakes miles away from the well - A study of earthquakes induced by injecting fluids deep underground has revealed surprising patterns, suggesting that current recommendations for hydraulic fracturing, wastewater disposal, and geothermal wells may need to be revised.
Post partagé.
An article published in the journal "Nature Biotechnology" - you can read it at https://www.nature.com/articles/nbt.4229 - describes the proposal of a new taxonomic classification for bacteria based on their phylogenetic similarities. A team of researchers led by Philip Hugenholtz of the Australian Center for Ecogenomics (ACE) used metagenomics to analyze known bacteria and subsequently group them according to their genetic similarities and differences in 99 phyla. The results of this research are available in the Genome Taxonomy Database (GTDB).
Post partagé.
Earthquake early-warning system successfully sent alarm before temblor felt in Pasadena- Los Angeles Times
Post partagé.
Great minds may think alike, but all minds look alike
The brain is a complex network containing many billions of neurons. Each neuron is connected to thousands of others via links (synapses) which can be strong or weak. A strong link indicates a significant influence between connecting neurons unlike a weak link, which could be tens of thousands of times weaker than a strong one. One of the main challenges in neuroscience is understanding the origin and the possible functional significance of the very wide spectrum of link strengths which is common in all brains. Recently, Israeli physicists led by Prof. Ido Kanter, of the Department of Physics and Gonda (Goldschmied) Multidisciplinary Brain Research Center at Bar-Ilan University, published an article in the journal Scientific Reports in which they demonstrated that learning in the brain is actually conducted by several neuronal terminals (dendrites), contrary to Donald Hebb's 70-year-old theory that learning occurs only in the brain's synapses. The researchers termed their discovery "dendritic learning", and they showed that dendritic learning occurs much faster and in closer proximity to neurons. In a new article, published today in Scientific Reports, the same group of researchers builds upon its previous research to reveal, through advanced computational studies, that dendritic learning leads to the universal phenomenon that all brains are composed of the same wide spectrum of links.
The brain is a complex network containing many billions of neurons. Each neuron is connected to thousands of others via links (synapses) which can be strong or weak. A strong link indicates a significant influence between connecting neurons unlike a weak link, which could be tens of thousands of times weaker than a strong one. One of the main challenges in neuroscience is understanding the origin and the possible functional significance of the very wide spectrum of link strengths which is common in all brains. Recently, Israeli physicists led by Prof. Ido Kanter, of the Department of Physics and Gonda (Goldschmied) Multidisciplinary Brain Research Center at Bar-Ilan University, published an article in the journal Scientific Reports in which they demonstrated that learning in the brain is actually conducted by several neuronal terminals (dendrites), contrary to Donald Hebb's 70-year-old theory that learning occurs only in the brain's synapses. The researchers termed their discovery "dendritic learning", and they showed that dendritic learning occurs much faster and in closer proximity to neurons. In a new article, published today in Scientific Reports, the same group of researchers builds upon its previous research to reveal, through advanced computational studies, that dendritic learning leads to the universal phenomenon that all brains are composed of the same wide spectrum of links.
Great minds may think alike, but all minds look alike
medicalxpress.com
Post partagé.
Rather than dinosaurs, how about decency in the US?
Ce post a une pièce jointe.
Post partagé.
Synesthesia: The Sound of Style | Stitch Fix Technology – Multithreaded
multithreaded.stitchfix.com
Post partagé.
People with higher grey matter volume in the amygdala tend to hesitate or procrastinate. (Remember that there are actually two amygdalae -- one right, one left -- I don't know why science articles always use "amygdala" in the singular as if there is only one. There are functional differences between the right and left amygdala.)
The Neural Signature of Procrastination
psychologytoday.com
Veuillez patienter pendant le chargement des autres posts.