Using optical flow as an objective metric of cybersickness in virtual environments

Smith, Shamus P.; Blackmore, Karen; Nesbitt, Keith

Title: Using optical flow as an objective metric of cybersickness in virtual environments
Creator: Smith, Shamus P.; Blackmore, Karen; Nesbitt, Keith
Relation: Australasian Simulation Congress 2017 (ASC 2017). Proceedings of the Australasian Simulation Congress 2017 (ASC 2017) (Sydney 28-31 August, 2017)
Relation: http://proceedings.simulationaustralasia.com/index.html
Publisher: Simulation Australasia
Resource Type: conference paper
Date: 2017
Description: Cybersickness can have a negative impact on user experience and may prove to be a significant barrier to the use of virtual reality. This issue is linked to the stationary user’s perception of self-motion. This problem may be amplified with the widespread uptake of affordable head-mounted displays. Assessing the likelihood of cybersickness for any new virtual experience typically requires human participants and is often measured through subjective user responses or physiological measures, for example skin conductance and heart rate. Unfortunately, these approaches can be time consuming, particularly when ethics approval, specialized equipment and dedicated lab experiments are required. This paper outlines an alternative approach to objectively quantify expected self-motion experiences, and the resulting cybersickness that might occur in a virtual environment. To evaluate the approach, optical flow metrics were gathered from two virtual environments and an approximate entropy measure calculated using time-series data of visual motion. This approach was able to distinguish between the two virtual environments with known cybersickness characteristics. Refining such objective measures of virtual experiences can help minimize negative effects of cybersickness, by allowing rapid and iterative evaluation of simulations before final testing and deployment.
Subject: virtual reality; simulation; evaluation; cybersickness; optical flow
Identifier: http://hdl.handle.net/1959.13/1346847
Identifier: uon:29943
Language: eng
Full Text

Hits: 1993
Visitors: 2370
Downloads: 686

		Thumbnail	File	Description	Size	Format
View Details Download			ATTACHMENT02	Author final version	846 KB	Adobe Acrobat PDF	View Details Download