Three from MIT named 2024-25 Goldwater Scholars
Undergraduates Ben Lou, Srinath Mahankali, and Kenta Suzuki, whose research explores math and physics, are honored for their academic excellence.
Undergraduates Ben Lou, Srinath Mahankali, and Kenta Suzuki, whose research explores math and physics, are honored for their academic excellence.
MICRO internship program expands, brings undergraduate interns from other schools to campus.
Three neurosymbolic methods help language models find better abstractions within natural language, then use those representations to execute complex tasks.
Learners across 24 countries build technical and employment skills in a collaborative community.
Programming course for incarcerated people boosts digital literacy and self-efficacy, highlighting potential for reduced recidivism.
The advance offers a way to characterize a fundamental resource needed for quantum computing.
For the first time, researchers use a combination of MEG and fMRI to map the spatio-temporal human brain dynamics of a visual image being recognized.
Researchers have developed a security solution for power-hungry AI models that offers protection against two common attacks.
A new technique can be used to predict the actions of human or AI agents who behave suboptimally while working toward unknown goals.
A communication system whose users reveal only a few verified aspects of their identity can empower less confident participants to speak up, researchers report.
A CSAIL study highlights why it is so challenging to program a quantum computer to run a quantum algorithm, and offers a conceptual model for a more user-friendly quantum computer.
The MIT Schwarzman College of Computing building will form a new cluster of connectivity across a spectrum of disciplines in computing and artificial intelligence.
Graduate student Hammaad Adam is working to increase the supply of organs available for transplants, saving lives and improving health equity.
By providing plausible label maps for one medical image, the Tyche machine-learning model could help clinicians and researchers capture crucial information.
The device, based on simple tetromino shapes, could determine the direction and distance of a radiation source, with fewer detector pixels.