Detecting expertise in decision making under pressure: a virtual reality assessment environment and empirical evaluation

Matthew B. Thompson; Varun Gandhi; Alexandra Richardson-Newton; Guillermo Campitelli

doi:10.1186/s41235-025-00695-6

Back

Detecting expertise in decision making under pressure: a virtual reality assessment environment and empirical evaluation

Journal article

Open access

Peer reviewed

Detecting expertise in decision making under pressure: a virtual reality assessment environment and empirical evaluation

Matthew B. Thompson, Varun Gandhi, Alexandra Richardson-Newton and Guillermo Campitelli

Cognitive research: principles and implications, Vol.11(1), 6

2026

DOI: https://doi.org/10.1186/s41235-025-00695-6

PMID: 41505065

Files and links (1)

pdf

Published2.20 MBDownload View

CC BY V4.0, Open Access

Abstract

Behavioral Science and Psychology

Cognitive Psychology

Experimental Psychology

Neurosciences

Original Article

Psychology

Professions such as military, aviation, submarine operation, and emergency response require individuals to navigate complex environments characterized by limited information, stringent time constraints, and significant pressures. Effective decision making under pressure is crucial in safety–critical professions, yet measuring this expertise remains challenging. Inspired by the military context, this article introduces the virtual reality decision-making expertise (VR-DMX) environment, designed to evaluate decision-making expertise under time constraints within a virtual reality scenario. VR-DMX simulates an amusement arcade where users must decide how to allocate time across various games to maximize ticket earnings. Through two validation studies (N = 60 and N = 76), we examined two metrics: Total Tickets (measuring overall performance) and DMX score (isolating decision-making quality). Both metrics demonstrated symmetrical distributions without floor or ceiling effects, with coefficients of variation comparable to established individual difference measures (32.4–37.4% for Total Tickets; 20.8–27.6% for DMX score). The moderate correlation between metrics (meta-analysis r = 0.771, 95% CI [0.599, 0.943]) indicates they measure related but distinct constructs. Our findings indicate that VR-DMX effectively differentiates individual performance levels and captures a distinct decision-making component that is separate from general cognitive abilities. Comparing decision-making expertise between professionals in safety–critical fields with those without such experience would be a sensible next step to help validate the potential for selection and training applications. VR-DMX was designed to measure decision-making expertise in safety–critical contexts, and initial validation data demonstrating effective differentiation of individual performance levels suggest that continued development could fulfill this design intention for applications in selection, training, and performance prediction.

Details

Title: Detecting expertise in decision making under pressure: a virtual reality assessment environment and empirical evaluation
Authors/Creators: Matthew B. Thompson - Murdoch University, Centre for Biosecurity and One Health
Varun Gandhi - Murdoch University
Alexandra Richardson-Newton - Murdoch University
Guillermo Campitelli - Murdoch University, Centre for Biosecurity and One Health
Publication Details: Cognitive research: principles and implications, Vol.11(1), 6
Publisher: Springer International Publishing
Number of pages: 20
Grant note: Murdoch University RN10014 / Defence Science and Technology Group (http://dx.doi.org/10.13039/501100008812)
Identifiers: 991005851088307891
Murdoch Affiliation: Centre for Biosecurity and One Health; School of Psychology; College of Health and Education
Language: English
Resource Type: Journal article

Metrics

1 File views/ downloads

5 Record Views