1 research outputs found
Learning Shared Safety Constraints from Multi-task Demonstrations
Regardless of the particular task we want them to perform in an environment,
there are often shared safety constraints we want our agents to respect. For
example, regardless of whether it is making a sandwich or clearing the table, a
kitchen robot should not break a plate. Manually specifying such a constraint
can be both time-consuming and error-prone. We show how to learn constraints
from expert demonstrations of safe task completion by extending inverse
reinforcement learning (IRL) techniques to the space of constraints.
Intuitively, we learn constraints that forbid highly rewarding behavior that
the expert could have taken but chose not to. Unfortunately, the constraint
learning problem is rather ill-posed and typically leads to overly conservative
constraints that forbid all behavior that the expert did not take. We counter
this by leveraging diverse demonstrations that naturally occur in multi-task
settings to learn a tighter set of constraints. We validate our method with
simulation experiments on high-dimensional continuous control tasks