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É«»¨Ìà researchers are working to make AI applications more reliable and more resilient.

By lassoing lizards, putting tiny chips on their legs, and tracking them for three years, É«»¨ÌÃ’s James Stroud revealed why species often appear unchanged for millions of years despite Charles Darwin’s theory of constant evolution.

Many insects fly synchronously, matching the nervous system pulses to wing movement. But smaller insects don’t have the mechanics for this and must flap their wings harder, which works only up to a certain point. That’s where asynchronous flight comes in.

Cybersecurity master’s student Sneha Talwalkar and GTRI Principal Research Scientist Courtney Crooks are working to build the framework of an AI tool with the goal of providing support and protection to domestic abuse survivors.

Professors across the country are facing the need to quickly produce online courses.

Physicists have developed a new model and clearer picture of molecular movements within active matter — bringing science a step closer to designing specific functions into new materials, and understanding emergent behaviors.

Physicist Claire Berger has been awarded the Chevalier dans L'ordre des Palmes Académiques for her groundbreaking graphene research — and her work on strengthening ties between U.S. and French scientists.

This fall, the Institute will launch a foundational, interdisciplinary program to lead in research related to neuroscience, neurotechnology, and society.

In response to changing climates, many plants and animals are moving to higher elevations, seeking cooler temperatures. But a new study finds that flying insects like bees and moths may struggle with insurmountable issues to this escape route.

A newly funded research project might one day lead to the development of a pill or capsule able to boost the effectiveness of traditional vaccines against influenza