Title :
Adaptive redirected walking in a virtual world
Author :
Goldfeather, J. ; Interrante, Victoria
Author_Institution :
Carleton Coll., Northfield, MN, USA
Abstract :
Redirected walking enables the physical exploration of large virtual environments within the confines of more limited physical spaces. In this paper, we present a novel method for adaptively determining an appropriate mapping from a linear path in a larger virtual environment into a curved path in a smaller tracked space that simultaneously integrates the use of both rotational and translational offsets. We evaluate the method using a software simulator that redirects a user walking on random paths between 16 randomly selected target locations in a virtual environment that is twice as wide as the available tracked space. We find that our controller has a 77% success rate using an average rotational offset of 0.5 degrees per step and an average translational gain of 1.5.
Keywords :
digital simulation; virtual reality; adaptive redirected walking; curved path; linear path; physical spaces; random paths; rotational offsets; software simulator; tracked space; translational offsets; virtual environments; virtual world; Aerospace electronics; Approximation methods; Equations; Legged locomotion; Software; Virtual environments;
Conference_Titel :
Perceptual Illusions in Virtual Environments (PIVE), 2012 IEEE VR Workshop on
Conference_Location :
Orange County, CA
Print_ISBN :
978-1-4673-1217-2
DOI :
10.1109/PIVE.2012.6229795
