Iowa State researchers in psychology and engineering found women experience cybersickness with virtual reality headsets more often than men.
Their ongoing work, supported by a new $600,000 grant from the National Science Foundation, explores why this difference exists and options to help individuals adapt.
Psychology professor Jonathan Kelly studies human-computer interaction, spatial cognition and virtual reality. He says gender discrepancies in cybersickness may not seem that important when it’s related to video games and other forms of entertainment.
“But it’s still a problem, and when VR gets to the point where it’s a bigger part of job training or education in a classroom, it’s even more important to make sure people can access this technology. If not, many people will get left out, and there could be a backlash,” says Kelly.
Like motion sickness, cybersickness can occur when there’s a mismatch between visual and body motions. Symptoms, including nausea, dizziness, headaches and eye fatigue, usually resolve quickly after removing the headset. But in severe cases, they sometimes last for hours.
With ISU professor Michael Dorneich and associate professor Stephen Gilbert in industrial and manufacturing systems engineering, Kelly and his Ph.D. student, Taylor Doty, recently co-authored two related papers for the IEEE Virtual Reality Conference. The first paper provides an overview of existing research on gender and cybersickness, including their own findings.
As part of a larger study on adaptation to cybersickness, the ISU researchers recruited 150 participants to play up to 20 minutes of a VR game with a headset. The participants were new to VR and could stop if they felt too sick to continue.
The researchers found women ended the game early twice as often as men and reported a sickness intensity that was 40% higher.
The paper also helps clarify why previous studies, many of which came from engineering or computer science, show conflicting results.
“A lot of the older papers that found no difference in cybersickness between men and women had very small sample sizes or a large gender imbalance. If the effect is small or individual differences are large, you may need 200 participants to identify statistically significant differences,” says Kelly.
“I think this methodological expertise is something we in psychology can really provide. It also highlights the value of interdisciplinary collaboration to tackle complex problems like cybersickness.”
For the second paper, the researchers explored whether the distance between an individual’s pupils could help explain the gender difference in cybersickness.
VR headsets have an adjustable lens set-up to accommodate different users, but some people fall outside the range. The researchers found women participants on average had smaller distances between their pupils than men, but it did not predict whether they would get cybersick during the game.
What seemed to matter more was whether they had previous experience with motion sickness or screen sickness (e.g., feeling sick in movie theaters, while playing a video game.)
“Women reported experiencing more motion sickness and screen-based sickness than men, and this increased susceptibility is part of the reason that women experience more cybersickness,” says Kelly.
From the wading pool to the deep end
With the new NSF grant, the ISU researchers will continue to investigate the causes of cybersickness and methods to help individuals have a positive experience with VR.
“One of the things we’re doing now is comparing the settings of headsets and virtual environments to see which are most effective at reducing cybersickness for first-time users, and whether some are better than others for certain individuals,” says Kelly.
This includes adding “blinders,” which reduce the users’ peripheral vision while they move through a space, and options to teleport from point A to point B. Both reduce cybersickness by reducing visual stimulation.
The researchers will also study how these settings can be adjusted over time to help the user adapt comfortably and ease into VR. Kelly likens it to beginner swimming lessons in the zero-entry part of the pool, rather than the deep end.
Cybersickness: Key Facts, Symptoms, and Definitions
- Cybersickness, also known as virtual reality (VR) sickness or motion sickness in virtual environments, is a type of discomfort or sickness that some individuals experience when using immersive technologies like virtual reality or augmented reality.
- This health condition can cause a range of symptoms including nausea, dizziness, headaches, eyestrain, sweating, fatigue, disorientation, and in some cases, vomiting. The severity and duration of symptoms can vary among individuals.
- Cybersickness is primarily caused by a sensory conflict between visual perception and the body’s vestibular system, which senses motion and balance. In virtual environments, the visual cues may suggest motion or movement that conflicts with the body’s perception, leading to discomfort.
- Certain factors can contribute to the likelihood and intensity of cybersickness, including individual susceptibility, the intensity and duration of exposure to virtual environments, the type of content or movement experienced, and the quality of the virtual reality system.
- The prevalence of cybersickness varies among individuals. Some people may experience it frequently and intensely, while others may not experience it at all. It can affect both novice users and experienced users of virtual reality technology.
- There are several strategies that can help prevent or reduce cybersickness, such as taking breaks during VR sessions, gradually acclimating to virtual environments, using high-quality VR equipment with low latency and high refresh rates, and avoiding content with rapid or intense movements.
- With repeated exposure to virtual environments, some individuals may develop a degree of tolerance and experience reduced cybersickness over time. This is known as “VR adaptation.”
- Cybersickness is an active area of research, and developers of virtual reality technologies are continuously working to improve hardware and software to reduce its occurrence. Techniques like improved tracking, reduced latency, and more realistic visual rendering are being explored to enhance user comfort and reduce the incidence of this health condition.
- Cybersickness can have practical implications for the use of virtual reality in various fields such as gaming, training simulations, therapy, and education.
- While visual stimuli are the primary cause of cybersickness, interestingly, it is possible to experience cybersickness even without visual cues. Studies have shown that simply perceiving self-motion through other sensory inputs, such as auditory or tactile cues, can induce cybersickness. This indicates that the multisensory nature of our perception plays a role in the development of cybersickness, beyond just visual information.
Source: Iowa State University
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