A collaborative research team from NIMS and Tokyo University of Science has successfully developed a cutting-edge artificial intelligence (AI) device that executes brain-like information processing through few-molecule reservoir computing. This innovation utilizes the molecular vibrations of a select number of organic molecules. By applying this device for the blood glucose level prediction in patients with diabetes, it has significantly outperformed existing AI devices in terms of prediction accuracy.

<p>Scientists from the University of California San Diego discovered a novel signaling pathway in liver cells, leading to a treatment for fibrosis.</p>

<p>Interactions between wind turbines could reduce power output by 30% in proposed offshore wind farm areas along the East Coast, new research has found. In all, the farms could still meet 60% of the electricity demand of New England.</p>

<p>A University of Massachusetts Amherst sleep scientist, funded with $6.7 million in grants from the National Institutes of Health (NIH), has launched two unprecedented studies that will track over time the brain development of infants and preschoolers to confirm the role of napping in early life and to identify the bioregulatory mechanisms involved.</p>