Helping computer vision and language models understand what they see
Researchers use synthetic data to improve a model’s ability to grasp conceptual information, which could enhance automatic captioning and question-answering systems.
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Researchers use synthetic data to improve a model’s ability to grasp conceptual information, which could enhance automatic captioning and question-answering systems.
The system could improve image quality in video streaming or help autonomous vehicles identify road hazards in real-time.
“Lightning” system connects photons to the electronic components of computers using a novel abstraction, creating the first photonic computing prototype to serve real-time machine-learning inference requests.
Coupling engineered bacteria with low-power electronics could be highly effective in diagnosis, treatment of bowel diseases.
The Jameel World Education Lab awards more than $900K in Education Innovation Grants to researchers across MIT.
The system could be used for battery-free underwater communication across kilometer-scale distances, to aid monitoring of climate and coastal change.
By synchronizing media streams transmitted from the cloud to two devices, researchers could improve cloud gaming and AR/VR applications.
The MIT School of Engineering recently honored outstanding faculty, students, and staff with its 2023 awards.
A one-week summer program aims to foster a deeper understanding of machine-learning approaches in health among curious young minds.
With a new technique, a robot can reason efficiently about moving objects using more than just its fingertips.
MIT Energy Initiative spinoff Waya Energy helps countries work toward universal access to electricity.
With this new approach, a tailsitter aircraft, ideal for search-and-rescue missions, can plan and execute complex, high-speed acrobatic maneuvers.
MIT system demonstrates greater than 100-fold improvement in energy efficiency and a 25-fold improvement in compute density compared with current systems.
Produced with techniques borrowed from Japanese paper-cutting, the strong metal lattices are lighter than cork and have customizable mechanical properties.
The effort aims to transform micronutrient dosing to children by harnessing the power of data.