An Optimization-Based Theory of Mind for Human-Robot Interaction

Generating robot action for interaction with people is not scalable without learning, but learning from scratch has too high sample complexity. Inductive bias becomes critical, but what is the right inductive bias when it comes to people? We study the assumption that people are driven by intentions and are approximately rational in pursuing them. We derive algorithms that can leverage this assumption, ways in which to bring it closer to matching real human behavior, as well as ways in which robots can remain flexible to human behavior that violates it.

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发言人详细信息

I am an Assistant Professor in the EECS Department at UC Berkeley. My goal is to enable robots to work with, around, and in support of people. I run the InterACT Lab, where we focus on algorithms for human-robot interaction — algorithms that move beyond the robot’s function in isolation, and generate robot behavior that also accounts for interaction and coordination with end-users. We work across different applications, from assistive robots, to manufacturing, to autonomous cars, and draw from optimal control, planning, estimation, learning, and cognitive science. I also helped found and serve on the steering committee for the Berkeley AI Research (BAIR) Lab, and am a co-PI of the Center for Human-Compatible AI. I’ve been honored by the Sloan Fellowship, MIT TR35, the Okawa award, and an NSF CAREER award.

日期:
演讲者:
Anca Dragan
所属机构:
UC Berkeley

系列: MSR AI Distinguished Lectures and Fireside Chats