What Can This Robot Do? Learning Capability Models from Appearance and Experiments - Robotics Institute Carnegie Mellon University

What Can This Robot Do? Learning Capability Models from Appearance and Experiments

Ashwin Khadke
Master's Thesis, Tech. Report, CMU-RI-TR-18-33, Robotics Institute, Carnegie Mellon University, July, 2018

Abstract

As autonomous robots become increasingly multifunctional and adaptive, it becomes difficult to determine the extent of their capabilities, i.e. the tasks they can perform and their strengths and limitations at these tasks. A robot’s appearance can provide cues to its physical as well as cognitive capabilities. We present an algorithm that builds on these cues and learns models of a robot’s ability to perform different tasks through active experimentation. These models not only capture the robot’s inherent abilities but also incorporate the effect of relevant extrinsic factors on a robot’s performance. Our algorithm would find use as a tool for humans in determining ”What can this robot do?”.

We applied our algorithm in modelling a NAO and a Pepper robot at two different tasks. We first illustrate the advantages of our active experimen- tation approach over building models through passive observations. Next, we show the utility of such models in identifying scenarios a robot is well suited for in performing a task. Finally, we demonstrate the use of such models in a collaborative human-robot task.

BibTeX

@mastersthesis{Khadke-2018-106523,
author = {Ashwin Khadke},
title = {What Can This Robot Do? Learning Capability Models from Appearance and Experiments},
year = {2018},
month = {July},
school = {Carnegie Mellon University},
address = {Pittsburgh, PA},
number = {CMU-RI-TR-18-33},
keywords = {Active Learning from Experiments, Bayesian Networks},
}