At 88 years old, professor Don Greenberg ’55 is still on the cutting edge: He’s launched a new undergraduate and graduate course for students in both architecture and computer science, “Design in the Age of Digital Twins.”
Integrating AI into environmental control systems could reduce energy consumption for indoor agriculture by 25% – potentially helping to feed a growing world population.
A research collaboration has found an efficient way to expand the collective behavior of swarming microrobots: Mixing different sizes of the micron-scale ‘bots enables them to self-organize into diverse patterns that can be manipulated when a magnetic field is applied.
Cornell Bowers CIS is hosting a weekly conversation on Fridays about the future of AI, which will include top industry leaders and groundbreaking researchers who are building the technology and examining its societal, legal, and ethical impacts.
A Cornell collaboration developed a model to simulate the atmospheric transport of microplastic fibers and found that their shape plays a crucial role in how far they travel.
Members of Cornell’s Hybrid Body Lab have come up with a reliable on-skin computing interface that’s easy to attach and detach, and can be used for a variety of purposes – from health monitoring to fashion.
Cornell is leading a new $34 million research center that will accelerate the creation of energy-efficient semiconductor materials and technologies, and develop revolutionary new approaches for microelectronics systems.
A simple model that simultaneously simulates swarming behaviors and synchronized timing takes a step toward engineering microrobots and furthering our understanding of such phenomena in biology.
A gift establishing the Professor William Maxwell '56 Fellows will financially support research professors and students affiliated with Cornell's Engineering Innovations in Medicine initiative.