AI became powerful because of interacting mechanisms: neural networks, backpropagation and reinforcement learning, attention, ...
Microgrids play a growing role in modern power systems, supporting renewable integration, local resilience, and decentralized ...
Across neuroscience, biomedical engineering and artificial intelligence, researchers from Carnegie Mellon University are exploring how pain is measured, understood and treated to support safer, more ...
The signals that drive many of the brain and body's most essential functions—consciousness, sleep, breathing, heart rate and motion—course through bundles of "white matter" fibers in the brainstem, ...
Machine learning is helping neuroscientists organize vast quantities of cells’ genetic data in the latest neurobiological cartography effort.
A new technique from Stanford, Nvidia, and Together AI lets models learn during inference rather than relying on static ...
The global spatial biology market is projected to grow at a compound annual growth rate (CAGR) of approximately 15% over the ...
A research team has successfully demonstrated the world's first gene-editing treatment for Leber's hereditary optic ...
Brain imaging technologies (e.g., MRI, PET, advanced microscopy) are foundational tools for deciphering the brain's ...
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