Developing edge-computing and AI capabilities from wearable sensors enhances their intelligence, critical for the AI of Things, and reduces power consumption by minimizing data exchange between sensory terminals and computing units. This enables wearable devices to process data locally, offering real-time processing, faster feedback, and decreased reliance on network connectivity and external devices, thereby enhancing efficiency, privacy, and responsiveness in applications like health monitoring, activity tracking, and smart wearable technology.
Read more …Soft microelectronics technologies enabling wearable AI for digital health
A team of scientists has discovered surprising connections among gene activity, genome packing, and genome-wide motions, revealing aspects of the genome's organization that directly affect gene regulation and expression. The findings bolster our understanding of the mechanics behind transcription-dependent motions of single genes -- the dysfunction of which may lead to neurological and cardiovascular disorders as well as to cancer.
Read more …Stirred, not shaken: Scientists uncover how transcription drives motion within the genome
SARS-CoV-2 has an enzyme that can counteract a cell's innate defense mechanism against viruses, explaining why it is more infectious than the previous SARS and MERS-causing viruses. The discovery may point the way to the development of more effective drugs against this and possibly similar, future diseases.
Read more …How the coronavirus defeats the innate immune response