With new industry, a new era for cities
In his book, “New Industrial Urbanism,” Eran Ben-Joseph looks at the evolving form and function of 21st-century cities.
In his book, “New Industrial Urbanism,” Eran Ben-Joseph looks at the evolving form and function of 21st-century cities.
A new technique could enable a robot to manipulate squishy objects like pizza dough or soft materials like clothing.
Brent Minchew leads two proposals to better understand glacial physics and predict sea-level rise as part of MIT's Climate Grand Challenges competition.
A new technique for removing bias in datasets can enable machine-learning models to make loan approval predictions that are both fair and accurate.
Cannabinoid receptors help the brain’s dopamine system establish key connections after birth, a new mouse study suggests.
Associate professor and principal investigator with the MIT Schwarzman College of Computing’s Science Hub discusses the future of robotics and the importance of industry-academia collaborations.
Mary Gehring is using her background in plant epigenetics to grow climate-resilient crops.
MIT AI Hardware Program launches with five inaugural companies to advance AI technologies for the next decade.
“Privid” could help officials gather secure public health data or enable transportation departments to monitor the density and flow of pedestrians, without learning personal information about people.
Faculty leaders detail promising technologies, materials, and methods that could help unlock a low-carbon future in sectors where emissions are hardest to cut.
Researchers design a user-friendly interface that helps nonexperts make forecasts using data collected over time.
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions.
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
MIT Haystack Observatory identifies long-duration atmospheric waves launched by the recent Tonga eruption.
Named after a goddess of the dawn, the Thesan simulation of the first billion years helps explain how radiation shaped the early universe.