Measuring the Impact of Immersive Virtual Reality on Construction Design Review Applications: Head-Mounted Display versus Desktop Monitor

An effective warning attracts attention, elicits knowledge, and enables compliance behavior. Game mechanics, which are directly linked to human desires, stand out as training, evaluation, and improvement tools. Immersive virtual reality (VR) facilitates training without risk to participants, evaluates the impact of an incorrect action/decision, and creates a smart training environment. The present study analyzes the user experience in a gamified virtual environment of risks using the HTC Vive head-mounted display. The game was developed in the Unreal game engine and consisted of a walk-through maze composed of evident dangers and different signaling variables while user action data were recorded. To demonstrate which aspects provide better interaction, experience, perception and memory, three different warning configurations (dynamic, static and smart) and two different levels of danger (low and high) were presented. To properly assess the impact of the experience, we conducted a survey about personality and knowledge before and after using the game. We proceeded with the qualitative approach by using questions in a bipolar laddering assessment that was compared with the recorded data during the game. The findings indicate that when users are engaged in VR, they tend to test the consequences of their actions rather than maintaining safety. The results also reveal that textual signal variables are not accessed when users are faced with the stress factor of time. Progress is needed in implementing new technologies for warnings and advance notifications to improve the evaluation of human behavior in virtual environments of high-risk surroundings.

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Investigating the impact of shopper personality on behaviour in immersive Virtual Reality store environments

Journal of Retailing and Consumer Services ◽

10.1016/j.jretconser.2021.102581 ◽

2021 ◽

Vol 61 ◽

pp. 102581

Author(s):

Alexander Schnack ◽

Malcolm J. Wright ◽

Jonathan Elms

Keyword(s):

Virtual Reality ◽

Immersive Virtual Reality ◽

The Impact

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The impact of avatar-owner visual similarity on body ownership in immersive virtual reality

Proceedings of the 23rd ACM Symposium on Virtual Reality Software and Technology - VRST '17 ◽

10.1145/3139131.3141214 ◽

2017 ◽

Cited By ~ 9

Author(s):

Dongsik Jo ◽

Kangsoo Kim ◽

Gregory F. Welch ◽

Woojin Jeon ◽

Yongwan Kim ◽

...

Keyword(s):

Virtual Reality ◽

Visual Similarity ◽

Body Ownership ◽

Immersive Virtual Reality ◽

The Impact

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Design of Immersive Virtual Reality System to Improve Communication Skills in Individuals with Autism

International Journal of Emerging Technologies in Learning (iJET) ◽

10.3991/ijet.v12i05.6766 ◽

2017 ◽

Vol 12 (05) ◽

pp. 50 ◽

Cited By ~ 11

Author(s):

Osama Halabi ◽

Samir Abou El-Seoud ◽

Jihad Alja'am ◽

Hena Alpona ◽

Moza Al-Hemadi ◽

...

Keyword(s):

Virtual Reality ◽

Social Performance ◽

Autism Spectrum ◽

Immersive Virtual Reality ◽

Autistic Children ◽

Natural Interaction ◽

Head Mounted Display ◽

Communications Skills ◽

Improved Performance ◽

Communication Impairments

Individuals with autism spectrum disorder (ASD) regularly experience situations in which they need to give answers but do not know how to respond; for example, questions related to everyday life activities that are asked by strangers. Research geared at utilizing technology to mend social and communication impairments in children with autism is actively underway. Immersive virtual reality (VR) is a relatively recent technology that has the potential of being an effective therapeutic tool for developing various skills in autistic children. This paper presents an interactive scenario-based VR system developed to improve the communications skills of autistic children. The system utilizes speech recognition to provide natural interaction and role-play and turn-taking to evaluate and verify the effectiveness of the immersive environment on the social performance of autistic children. In experiments conducted, participants showed more improved performance with a computer augmented virtual environment (CAVE) than with a head mounted display (HMD) or a normal desktop. The results indicate that immersive VR could be more satisfactory and motivational than desktop for children with ASD.

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Low-cost and home-made immersive systems

International Journal of Virtual Reality ◽

10.20870/ijvr.2012.11.3.2846 ◽

2012 ◽

Vol 11 (3) ◽

pp. 9-17 ◽

Cited By ~ 2

Author(s):

Sébastien Kuntz ◽

Ján Cíger

Keyword(s):

Virtual Reality ◽

Vision System ◽

Low Cost ◽

Immersive Virtual Reality ◽

Simple Application ◽

3D Vision ◽

Head Mounted Display ◽

Good Level ◽

Application Sharing ◽

Immersive Systems

A lot of professionals or hobbyists at home would like to create their own immersive virtual reality systems for cheap and taking little space. We offer two examples of such "home-made" systems using the cheapest hardware possible while maintaining a good level of immersion: the first system is based on a projector (VRKit-Wall) and cost around 1000$, while the second system is based on a head-mounted display (VRKit-HMD) and costs between 600� and 1000�. We also propose a standardization of those systems in order to enable simple application sharing. Finally, we describe a method to calibrate the stereoscopy of a NVIDIA 3D Vision system.

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Validation of the Virtual Reality Neuroscience Questionnaire: Maximum Duration of Immersive Virtual Reality Sessions Without the Presence of Pertinent Adverse Symptomatology

10.31234/osf.io/r4xew ◽

2021 ◽

Author(s):

Panagiotis Kourtesis ◽

Simona Collina ◽

Leonidas A. A. Doumas ◽

Sarah E. MacPherson

Keyword(s):

Virtual Reality ◽

Cognitive Neuroscience ◽

Clinical Settings ◽

Immersive Virtual Reality ◽

Clinical Tool ◽

Head Mounted Display ◽

Brief Assessment ◽

Game Mechanics ◽

Maximum Duration

There are major concerns about the suitability of immersive virtual reality (VR) systems (i.e., head-mounted display; HMD) to be implemented in research and clinical settings, because of the presence of nausea, dizziness, disorientation, fatigue, and instability (i.e., VR induced symptoms and effects; VRISE). Research suggests that the duration of a VR session modulates the presence and intensity of VRISE, but there are no suggestions regarding the appropriate maximum duration of VR sessions. The implementation of high-end VR HMDs in conjunction with ergonomic VR software seems to mitigate the presence of VRISE substantially. However, a brief tool does not currently exist to appraise and report both the quality of software features and VRISE intensity quantitatively. The Virtual Reality Neuroscience Questionnaire (VRNQ) was developed to assess the quality of VR software in terms of user experience, game mechanics, in-game assistance, and VRISE. Forty participants aged between 28 and 43 years were recruited (18 gamers and 22 non-gamers) for the study. They participated in 3 different VR sessions until they felt weary or discomfort and subsequently filled in the VRNQ. Our results demonstrated that VRNQ is a valid tool for assessing VR software as it has good convergent, discriminant, and construct validity. The maximum duration of VR sessions should be between 55 and 70 min when the VR software meets or exceeds the parsimonious cut-offs of the VRNQ and the users are familiarized with the VR system. Also, the gaming experience does not seem to affect how long VR sessions should last. Also, while the quality of VR software substantially modulates the maximum duration of VR sessions, age and education do not. Finally, deeper immersion, better quality of graphics and sound, and more helpful in-game instructions and prompts were found to reduce VRISE intensity. The VRNQ facilitates the brief assessment and reporting of the quality of VR software features and/or the intensity of VRISE, while its minimum and parsimonious cut-offs may appraise the suitability of VR software for implementation in research and clinical settings. The findings of this study contribute to the establishment of rigorous VR methods that are crucial for the viability of immersive VR as a research and clinical tool in cognitive neuroscience and neuropsychology.

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Using Multi-Sensory and Multi-Dimensional Immersive Virtual Reality in Participatory Planning

Urban Science ◽

10.3390/urbansci4030034 ◽

2020 ◽

Vol 4 (3) ◽

pp. 34

Author(s):

Mahbubur Meenar ◽

Jennifer Kitson

Keyword(s):

Virtual Reality ◽

Focus Group ◽

Spatial Planning ◽

3D Model ◽

Emotional Responses ◽

Digital Technologies ◽

Participatory Planning ◽

Immersive Virtual Reality ◽

Model Simulations ◽

The Impact

In the last two decades, urban planners have embraced digital technologies to complement traditional public participation processes; research on the impact of smarter digital instruments, such as immersive virtual reality (IVR), however, is scant. We recruited 40 focus group participants to explore various formats of spatial planning scenario simulations in Glassboro, NJ, USA. Our study finds that the level of participation, memory recalls of scenarios, and emotional responses to design proposals are higher with multi-sensory and multi-dimensional IVR simulations than with standard presentations such as 2D videos of 3D model simulations, coupled with verbal presentations. We also discuss the limitations of IVR technology to assist urban planning practitioners in evaluating its potential in their own participatory planning efforts.

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