Robot-Guided Evacuation as a Paradigm for Human-Robot Interaction Research

Author:

Wagner Alan R.

Abstract

This paper conceptualizes the problem of emergency evacuation as a paradigm for investigating human-robot interaction. We argue that emergency evacuation offers unique and important perspectives on human-robot interaction while also demanding close attention to the ethical ramifications of the technologies developed. We present a series of approaches for developing emergency evacuation robots and detail several essential design considerations. This paper concludes with a discussion of the ethical implications of emergency evacuation robots and a roadmap for their development, implementation, and evaluation.

Publisher

Frontiers Media SA

Subject

Artificial Intelligence,Computer Science Applications

Reference46 articles.

1. Analysis of the Evacuation of the World Trade Center Towers on September 11, 2001;Averill;Fire Technol.,2013

2. Human-Robot Interaction

3. Robot Guided Crowd Evacuation;Boukas;IEEE Trans. Autonmation Sci. Eng.,2015

4. Behavioral Response to Fire and Smoke;Bryan,2002

5. Planning with Trust for Human-Robot Collaboration;Chen,2018

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