Self-Driving Cars

Cooperation Over Competition

Flocks of birds. Schools of fish. Colonies of ants. Their strength is in numbers as they can fend off larger predators, move faster, and mate more easily. Daphne Klotsa, an applied physicist, studies how these biological swarms function in hopes to improve how humans and automated technologies navigate the world.

Machine Morality

As machines become more autonomous, humans must define the limits of their decision-making. UNC postdoctoral researcher Yochanan Bigman addresses this topic, suggesting where to draw the line when self-governing technology is required to make life-or-death decisions.

The Fast and the Autonomous

In a small corner of Sitterson Hall sits a fleet of pint-size cars that can see and navigate independently, winning races for the team of UNC computer science students that created them. While the stakes are low for these high-tech toys, it's a completely different game when applied to full-size vehicles in the real world — the application of professor Parasara Sridhar Duggirala's research.