Helping People Through Space and Time: Assistance as a Perspective on Human-Robot Interaction - Robotics Institute Carnegie Mellon University

Helping People Through Space and Time: Assistance as a Perspective on Human-Robot Interaction

Benjamin A. Newman, Reuben M. Aronson, Kris Kitani, and Henny Admoni
Journal Article, Frontiers in Robotics and AI, Vol. 8, January, 2022

Abstract

As assistive robotics has expanded to many task domains, comparing assistive strategies among the varieties of research becomes increasingly difficult. To begin to unify the disparate domains into a more general theory of assistance, we present a definition of assistance, a survey of existing work, and three key design axes that occur in many domains and benefit from the examination of assistance as a whole. We first define an assistance perspective that focuses on understanding a robot that is in control of its actions but subordinate to a user’s goals. Next, we use this perspective to explore design axes that arise from the problem of assistance more generally and explore how these axes have comparable trade-offs across many domains. We investigate how the assistive robot handles other people in the interaction, how the robot design can operate in a variety of action spaces to enact similar goals, and how assistive robots can vary the timing of their actions relative to the user’s behavior. While these axes are by no means comprehensive, we propose them as useful tools for unifying assistance research across domains and as examples of how taking a broader perspective on assistance enables more cross-domain theorizing about assistance.

BibTeX

@article{Newman-2022-130976,
author = {Benjamin A. Newman, Reuben M. Aronson, Kris Kitani, Henny Admoni},
title = {Helping People Through Space and Time: Assistance as a Perspective on Human-Robot Interaction},
journal = {Frontiers in Robotics and AI},
year = {2022},
month = {January},
volume = {8},
keywords = {human robot interaction, assistive robotics, socially assistive robotics, physically assistive robotics, collaborative robotics, rehabilitative robotics},
}