Authors: Sandy Huang, David Held, Pieter Abbeel, Anca Dragan
Our ultimate goal is to efficiently enable end-users to correctly anticipate a robot’s behavior in novel situations. This behavior is often a direct result of the robot’s underlying objective function. Our insight is that end-users need to have an accurate mental model of this objective function in order to understand and predict what the robot will do.While people naturally develop such a mental model over time through observing the robot act, this familiarization process may be lengthy. Our approach reduces this time by having the robot model how people infer objectives from observed behavior, and then selecting those behaviors that are maximally informative. The problem of computing a posterior over objectives from observed behavior is known as Inverse Reinforcement Learning (IRL), and has been applied to robots learning human objectives.We consider the problem where the roles of human and robot are swapped. Our main contribution is to recognize that unlike robots, humans will not be exact in their IRL inference. We thus introduce two factors to define candidate approximate-inference models for human learning in this setting, and analyze them in a user study in the autonomous driving domain. We show that certain approximate-inference models lead to the robot generating example behaviors that better enable users to anticipate what the robot will do in test situations. Our results also suggest, however, that additional research is needed in modeling how humans extrapolate from examples of robot behavior.