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Main Authors: Nelson, Cassidy R., Gabbard, Joseph L., Moats, Jason B., Mehta, Ranjana K.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2601.08186
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author Nelson, Cassidy R.
Gabbard, Joseph L.
Moats, Jason B.
Mehta, Ranjana K.
author_facet Nelson, Cassidy R.
Gabbard, Joseph L.
Moats, Jason B.
Mehta, Ranjana K.
contents Mass casualty incidents (MCIs) are a high-risk, sensitive domain with profound implications for patient and responder safety. Augmented reality has shown promise as an assistive tool for high-stress work domains and MCI triage both in the field and for pre-field training. However, the vulnerability of MCIs makes it challenging to evaluate new tools designed to enhance MCI response. In other words, profound evolutions like the integration of augmented reality into field response require thorough proof-of-concept evaluations before being launched into real-world response. This paper describes two progressive simulation strategies for augmented reality that bridge the gap between computer-based simulation and actual field response.
format Preprint
id arxiv_https___arxiv_org_abs_2601_08186
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Simulations for Augmented Reality Evaluation for Mass Casualty Incident Triage
Nelson, Cassidy R.
Gabbard, Joseph L.
Moats, Jason B.
Mehta, Ranjana K.
Human-Computer Interaction
Mass casualty incidents (MCIs) are a high-risk, sensitive domain with profound implications for patient and responder safety. Augmented reality has shown promise as an assistive tool for high-stress work domains and MCI triage both in the field and for pre-field training. However, the vulnerability of MCIs makes it challenging to evaluate new tools designed to enhance MCI response. In other words, profound evolutions like the integration of augmented reality into field response require thorough proof-of-concept evaluations before being launched into real-world response. This paper describes two progressive simulation strategies for augmented reality that bridge the gap between computer-based simulation and actual field response.
title Simulations for Augmented Reality Evaluation for Mass Casualty Incident Triage
topic Human-Computer Interaction
url https://arxiv.org/abs/2601.08186