A Systematic Review of Physiological Measurements, Factors, Methods, and Applications in Virtual Reality

Halbig, Andreas; Latoschik, Marc Erich

doi:10.3389/frvir.2021.694567

Cited by 41 publications

(13 citation statements)

References 244 publications

(298 reference statements)

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“…The fifth and sixth avenues address the correlation between heart rate variability and immersive and neurophysiological tools. In recent years, heart rate variability has been increasingly used in many fields to complement mixed reality systems (Halbig & Latoschik, 2021). Virtual reality enables consumer researchers to depict a variety of real‐world situations with a suitable level of details, contextual elements, and sensory information, which allows for high ecological validity during experimentation.…”

Section: Resultsmentioning

confidence: 99%

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Heart rate variability in marketing research: A systematic review and methodological perspectives

Kakaria

Bigné

Catrambone

et al. 2022

Psychology and Marketing

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Heart rate variability is a promising physiological measurement that accesses psychophysiological variations in response to a marketing stimulus. While its application spans diverse fields, there is a limited understanding of the usability and interpretation of heart rate variability in marketing research. Therefore, this hybrid literature review provides an overview of the emerging use of heart rate variability in marketing research, along with essential methodological considerations. In this context, we blend marketing mix framework with stimulus-organism-response theory, segregating the use of heart rate variability in various marketing research contexts. We follow the preferred reporting items for systematic reviews and metaanalyses (PRISMA) framework to reflect on 33 records obtained from six databases.Our findings suggest that 42% of studies used heart rate variability to investigate promotion-related topics. Overall, heart rate variability is mostly used in combination with Galvanic skin response (48%). Further, 39% of studies used non-portable systems for data collection. Last, using the theory characteristics methodology (TCM) framework, we identified six research avenues: (1) affective, cognitive, and sensorial constructs; (2) personality, thinking style, and demographics; (3) product experience; (4) advertising and branding; (5) correlation with immersive technologies; and (6) triangulation with other neurophysiological tools.

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Section: Resultsmentioning

confidence: 99%

Section: Methodology: New Research Directionsmentioning

confidence: 99%

Heart rate variability in marketing research: A systematic review and methodological perspectives

Kakaria

Bigné

Catrambone

et al. 2022

Psychology and Marketing

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“…The advancements in sensor technology have enabled researchers to get critical insights into human performance and experience, not possible through conventional approaches. Therefore, the inclusion of physiological sensors to obtain information about the user performance and experience in the virtual world can complement the existing approaches to assess training and knowledge transfer in virtual reality. , Physiological metrics can be used in evaluating user performance and experience in each of the environments, i.e., virtual, habituation, and real environments. Any differences revealed by these metrics can provide critical insights into the factors that can enhance VR effectiveness.…”

Section: Guidelines For Development and Deployment Of Vrmentioning

confidence: 99%

Review of Virtual Reality (VR) Applications To Enhance Chemical Safety: From Students to Plant Operators

Srinivasan

Iqbal

Shahab

2022

ACS Chem. Health Saf.

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Human performance is critical to ensure safety and health in hazardous chemical settings, wherein the majority of the accidents have been attributed to human error. As a result, both industry and academia have been concerned about the efficacy of knowledge and skill transfer. Virtual reality (VR) technology is gaining attention as a way to improve human performance. In this paper, we review the literature on the applications of VR to chemical safety in laboratories and industries. Our review reveals that VR offers much potential for training lab users and plant operators as well as for bridging the theoretical knowledge–practical skills gap. However, there is a need to develop systematic approaches to measure the effectiveness in achieving the desired training outcomes. Therefore, in this paper, we discuss the best practices for VR-based training. We also stress the need to incorporate physiological sensors into the VR environment.

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“…As medical VR technologies have become more commonplace, cybersickness has transitioned from a nuisance to a potential safety and efficacy concern. Cybersickness concerns have prompted researchers [11][12][13][14], professional groups [15], standards organizations [16], and the US Food and Drug Administration [17] to address prevention, assessment, and mitigation strategies.…”

Section: Introductionmentioning

confidence: 99%

Cybersickness Variability by Race: Findings From 6 Studies and a Mini Meta-analysis (Preprint)

Martingano¹,

Brown²,

Telaak³

et al. 2022

Preprint

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BACKGROUND With the influx of medical virtual reality (VR) technologies, cybersickness has transitioned from a nuisance experienced during leisure activities to a potential safety and efficacy concern for patients and clinicians. To improve health equity, it is important to understand any potential differences in cybersickness propensity among demographic groups, including racial groups. OBJECTIVE This study aims to explore whether cybersickness propensity differs across racial groups. METHODS We collected self-reported cybersickness ratings from 6 racially diverse independent samples within 1 laboratory group (N=931). In these studies, the participants were asked to perform tasks in VR such as traversing environments, pointing at and selecting objects, and interacting with virtual humans. RESULTS Significant racial differences in cybersickness were found in 50% (3/6) of studies. A mini meta-analysis revealed that, on average, Black participants reported approximately one-third of SD less cybersickness than White participants (Cohen d=−0.31; P<.001), regardless of the nature of the VR experience. There was no overall difference in reported cybersickness between the Asian and White participants (Cohen d=−0.11; P=.51). CONCLUSIONS Racial differences in cybersickness indicate that researchers, practitioners, and regulators should consider patient demographics when evaluating VR health intervention outcomes. These findings lay the groundwork for future studies that may explore racial differences in cybersickness directly.

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A Systematic Review of Physiological Measurements, Factors, Methods, and Applications in Virtual Reality

Cited by 41 publications

References 244 publications

Heart rate variability in marketing research: A systematic review and methodological perspectives

Heart rate variability in marketing research: A systematic review and methodological perspectives

Review of Virtual Reality (VR) Applications To Enhance Chemical Safety: From Students to Plant Operators

Cybersickness Variability by Race: Findings From 6 Studies and a Mini Meta-analysis (Preprint)

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