CASSL: Curriculum accelerated self-supervised learning - Robotics Institute Carnegie Mellon University

CASSL: Curriculum accelerated self-supervised learning

Adithya Murali, Lerrel Pinto, Dhiraj Gandhi, and Abhinav Gupta
Conference Paper, Proceedings of (ICRA) International Conference on Robotics and Automation, pp. 6453 - 6460, May, 2018

Abstract

Recent self-supervised learning approaches focus on using a few thousand data points to learn policies for high-level, low-dimensional action spaces. However, scaling this framework for high-dimensional control require either scaling up the data collection efforts or using a clever sampling strategy for training. We present a novel approach - Curriculum Accelerated Self-Supervised Learning (CASSL) - to train policies that map visual information to high-level, higher- dimensional action spaces. CASSL orders the sampling of training data based on control dimensions: the learning and sampling are focused on few control parameters before other parameters. The right curriculum for learning is suggested by variance-based global sensitivity analysis of the control space. We apply our CASSL framework to learning how to grasp using an adaptive, underactuated multi-fingered gripper, a challenging system to control. Our experimental results indicate that CASSL provides significant improvement and generalization compared to baseline methods such as staged curriculum learning (8% increase) and complete end-to-end learning with random exploration (14% improvement) tested on a set of novel objects.

BibTeX

@conference{Murali-2018-113285,
author = {Adithya Murali and Lerrel Pinto and Dhiraj Gandhi and Abhinav Gupta},
title = {CASSL: Curriculum accelerated self-supervised learning},
booktitle = {Proceedings of (ICRA) International Conference on Robotics and Automation},
year = {2018},
month = {May},
pages = {6453 - 6460},
}