This investigation compared how people performed a complex perception-action task -crossing trafficfilled roadways -in a CAVE vs. an HMD virtual environment. Participants physically crossed a virtual roadway with continuous cross traffic in either a CAVE-like or an HTC Vive pedestrian simulator. The 3D model and traffic scenario were identical in both simulators, allowing for a direct comparison between the two display systems. We found that participants in the Vive group accepted smaller gaps for crossing than participants in the CAVE group. They also timed their entry into the gap more precisely and tended to cross somewhat more quickly. As a result, participants in the Vive group had a somewhat larger margin of safety when they exited the roadway than those in the CAVE group. Participants in the CAVE group focused their gaze further down the road and had more variability in their gaze distances. The results provide a foundation for future studies of pedestrian behavior and other tasks involving full-body motion using HMD-based VR.
Objective
The goal of this investigation was to examine how individual variation in inattention and hyperactivity is related to motor timing difficulties and whether children’s performance on simple laboratory timing tasks is related to their performance on a virtual road-crossing task using a head-mounted virtual reality display system.
Methods
Participants were a community sample of 92 9- to 11-year-old children. Parents completed questionnaires assessing their child’s inattention and hyperactivity. Children completed two simple motor timing tasks (duration discrimination and synchronization-continuation) and crossed roads with continuous traffic in a head-mounted VR system.
Results
Higher parent-reported inattention and hyperactivity predicted poorer performance in the duration discrimination and synchronization-continuation tasks, but not the virtual pedestrian road-crossing task. Children with higher tap onset asynchrony in the synchronization-continuation task had poorer timing of entry into the gap in the virtual pedestrian road-crossing task.
Conclusions
The findings provide further evidence that timing deficits are associated with individual differences in inattention and hyperactivity and that timing difficulties may be a risk factor for functional difficulties in everyday life.
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