TY - CHAP U1 - Konferenzveröffentlichung A1 - Kruijff, Ernst A1 - Marquardt, Alexander A1 - Trepkowski, Christina A1 - Lindeman, Robert W. A1 - Hinkenjann, Andre A1 - Maiero, Jens A1 - Riecke, Bernhard E. T1 - On Your Feet!: Enhancing Vection in Leaning-Based Interfaces through Multisensory Stimuli T2 - Proceedings of the 2016 Symposium on Spatial User Interfaces (SUI '16). October 15-16, 2016, Tokyo, Japan N2 - When navigating larger virtual environments and computer games, natural walking is often unfeasible. Here, we investigate how alternatives such as joystick- or leaning-based locomotion interfaces ("human joystick") can be enhanced by adding walking-related cues following a sensory substitution approach. Using a custom-designed foot haptics system and evaluating it in a multi-part study, we show that adding walking related auditory cues (footstep sounds), visual cues (simulating bobbing head-motions from walking), and vibrotactile cues (via vibrotactile transducers and bass-shakers under participants' feet) could all enhance participants' sensation of self-motion (vection) and involement/presence. These benefits occurred similarly for seated joystick and standing leaning locomotion. Footstep sounds and vibrotactile cues also enhanced participants' self-reported ability to judge self-motion velocities and distances traveled. Compared to seated joystick control, standing leaning enhanced self-motion sensations. Combining standing leaning with a minimal walking-in-place procedure showed no benefits and reduced usability, though. Together, results highlight the potential of incorporating walking-related auditory, visual, and vibrotactile cues for improving user experience and self-motion perception in applications such as virtual reality, gaming, and tele-presence. KW - surface textures KW - gaming KW - whole-body interface KW - Navigation interface KW - bass-shaker KW - leaning KW - vibration KW - VR KW - 3D user interface Y1 - 2016 SN - 978-1-4503-4068-7 SB - 978-1-4503-4068-7 U6 - https://doi.org/10.1145/2983310.2985759 DO - https://doi.org/10.1145/2983310.2985759 SP - 149 EP - 158 PB - ACM Press ER -