Third-Person Visual Imitation Learning via Decoupled Hierarchical Controller - Robotics Institute Carnegie Mellon University

Third-Person Visual Imitation Learning via Decoupled Hierarchical Controller

Pratyusha Sharma, Deepak Pathak, and Abhinav Gupta
Conference Paper, Proceedings of (NeurIPS) Neural Information Processing Systems, pp. 2593 - 2603, December, 2019

Abstract

We study a generalized setup for learning from demonstration to build an agent that can manipulate novel objects in unseen scenarios by looking at only a single video of human demonstration from a third-person perspective. To accomplish this goal, our agent should not only learn to understand the intent of the demonstrated third-person video in its context but also perform the intended task in its environment configuration. Our central insight is to enforce this structure explicitly during learning by decoupling what to achieve (intended task) from how to perform it (controller). We propose a hierarchical setup where a high-level module learns to generate a series of first-person sub-goals conditioned on the third-person video demonstration, and a low-level controller predicts the actions to achieve those sub-goals. Our agent acts from raw image observations without any access to the full state information. We show results on a real robotic platform using Baxter for the manipulation tasks of pouring and placing objects in a box. Project video is available at https://pathak22.github.io/hierarchical-imitation/

BibTeX

@conference{Sharma-2019-121561,
author = {Pratyusha Sharma and Deepak Pathak and Abhinav Gupta},
title = {Third-Person Visual Imitation Learning via Decoupled Hierarchical Controller},
booktitle = {Proceedings of (NeurIPS) Neural Information Processing Systems},
year = {2019},
month = {December},
pages = {2593 - 2603},
}