MIT’s fleet of autonomous boats can now shapeshift
New capabilities allow “roboats” to change configurations to form pop-up bridges, stages, and other structures.
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New capabilities allow “roboats” to change configurations to form pop-up bridges, stages, and other structures.
New approach harnesses the same fabrication processes used for silicon chips, offers key advance toward next-generation computers.
Low-cost “piezoelectric” films produce voltage, could be used for flexible electronic components and more.
New technique could help doctors determine whether patients are at risk from elevated pressure.
Engineers program human and bacterial cells to keep a record of complex molecular events.
MIT system “learns” how to optimally allocate workloads across thousands of servers to cut costs, save energy.
Submerged system uses the vibration of “piezoelectric” materials to generate power and send and receive data.
“Risk-aware” traffic engineering could help service providers such as Microsoft, Amazon, and Google better utilize network infrastructure.
New research from the Computer Science and Artificial Intelligence Laboratory uses machine learning to customize clothing designs.
Model replaces the laborious process of annotating massive patient datasets by hand.
Researchers hope the system can zero in on the right patients to enroll in clinical trials, to speed discovery of drug treatments.
Two longtime friends explore how computer vision systems go awry.
Faculty members recognized for excellence via a diverse array of honors, grants, and prizes over the past quarter.
A course that combines machine learning and health care explores the promise of applying artificial intelligence to medicine.
When time matters in hospitals, automated system can detect an early biomarker for the potentially life-threatening condition.