Should we tax robots?
Study suggests a robot levy — but only a modest one — could help combat the effects of automation on income inequality in the U.S.
Meet the 2022-23 Accenture Fellows
This year's fellows will work across research areas including telemonitoring, human-computer interactions, operations research, AI-mediated socialization, and chemical transformations.
An automated way to assemble thousands of objects
A new algorithm for automatic assembly of products is accurate, efficient, and generalizable to a wide range of complex real-world assemblies.
Looking beyond “technology for technology’s sake”
Whether building robots or helping to lead the National Society of Black Engineers, senior Austen Roberson is thinking about the social implications of his field.
Channeling creativity through art and engineering
Recent mechanical engineering alumna Emily Satterfield ’22 pursues passions that might seem unrelated but “actually go hand-in-hand.”
Featured video: Creating a sense of feeling
Biomedical engineer and dancer Shriya Srinivasan PhD ’20 explores connections between the human body and the outside world.
Teresa Gao named 2024 Mitchell Scholar
The MIT senior will pursue postgraduate studies in computer science in Ireland.
Flocks of assembler robots show potential for making larger structures
Researchers make progress toward groups of robots that could build almost anything, including buildings, vehicles, and even bigger robots.
Building resilience for the next supply chain disruption
James Rice discusses supply chain resilience and how organizations can prepare for the next big problem.
Study: Automation drives income inequality
New data suggest most of the growth in the wage gap since 1980 comes from automation displacing less-educated workers.
Magnetic sensors track muscle length
Using a new technology, researchers hope to create better control systems for prosthetic limbs.
Reprogrammable materials selectively self-assemble
Researchers create a method for magnetically programming materials to make cubes that are very picky about what they connect with, enabling more-scalable self-assembly.
Tiny particles work together to do big things
Simple microparticles can beat rhythmically together, generating an oscillating electrical current that could be used to power microrobotic devices.
Wiggling toward bio-inspired machine intelligence
Inspired by jellyfish and octopuses, PhD candidate Juncal Arbelaiz investigates the theoretical underpinnings that will enable systems to more efficiently adapt to their environments.
Breaking through the mucus barrier
A capsule that tunnels through mucus in the GI tract could be used to orally administer large protein drugs such as insulin.