Effects of Alarms on Control of Robot Teams - Robotics Institute Carnegie Mellon University

Effects of Alarms on Control of Robot Teams

Shih Yi Chien, Huadong Wang, Michael Lewis, Siddharth Mehrotra, and Katia P. Sycara
Conference Paper, Proceedings of Human Factors and Ergonomic Society 55th Annual Meeting (HFES '11), pp. 434 - 438, September, 2011

Abstract

Annunciator driven supervisory control (ADSC) is a widely used technique for directing human attention to control systems otherwise beyond their capabilities. ADSC requires associating abnormal parameter values with alarms in such a way that operator attention can be directed toward the involved subsystems or conditions. This is hard to achieve in multirobot control because it is difficult to distinguish abnormal conditions for states of a robot team. For largely independent tasks such as foraging, however, self-reflection can serve as a basis for alerting the operator to abnormalities of individual robots. While the search for targets remains unalarmed the resulting system approximates ADSC. The described experiment compares a control condition in which operators perform a multirobot urban search and rescue (USAR) task without alarms with ADSC (freely annunciated) and with a decision aid that limits operator workload by showing only the top alarm. No differences were found in area searched or victims found, however, operators in the freely annunciated condition were faster in detecting both the annunciated failures and victims entering their cameras' fields of view.

BibTeX

@conference{Chien-2011-120868,
author = {Shih Yi Chien and Huadong Wang and Michael Lewis and Siddharth Mehrotra and Katia P. Sycara},
title = {Effects of Alarms on Control of Robot Teams},
booktitle = {Proceedings of Human Factors and Ergonomic Society 55th Annual Meeting (HFES '11)},
year = {2011},
month = {September},
pages = {434 - 438},
}