Research Stories
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Sensor developed by SMART researchers would allow rapid diagnosis of nutrition deficiency in plants, enabling farmers to maximize crop yield in a sustainable way.
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The design, which uses entangled atoms, could help scientists detect dark matter and study gravity’s effect on time.
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A smart thermostat quickly learns to optimize building microclimates for both energy consumption and user preference.
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SMART researchers use Raman spectroscopy for early detection of SAS, which can help farmers better monitor plant health and improve crop yields.
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A new deep-learning algorithm could provide advanced notice when systems — from satellites to data centers — are falling out of whack.
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Unbiased, high-throughput analysis pipeline improves utility of “minibrains” for understanding development and diseases such as Zika infection.
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The advance could cut production costs and reduce the size of microelectronics for sensing and communication.
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Nanoscale devices integrated into the leaves of living plants can detect the toxic heavy metal in real time.
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MLK Visiting Scholar focuses on microelectronics for cell analysis and biomedical applications.
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Adding a module that mimics part of the brain can prevent common errors made by computer vision models.