Visuotactile Integration for Depth Perception in Augmented Reality

N.E. Rosa; W.O. Hürst; P.J. Werkhoven; R.C. Veltkamp

doi:10.1145/2993148.2993156

Visuotactile Integration for Depth Perception in Augmented Reality

N.E. Rosa, W.O. Hürst, P.J. Werkhoven, R.C. Veltkamp

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

Abstract

Augmented reality applications using stereo head-mounted displays are not capable of perfectly blending real and virtual objects. For example, depth in the real world is perceived through cues such as accommodation and vergence. However, in stereo head-mounted displays these cues are disconnected since the virtual is generally projected at a static distance, while vergence changes with depth. This conflict can result in biased depth estimation of virtual objects in a real environment. In this research, we examined whether redundant tactile feedback can reduce the bias in perceived depth in a reaching task. In particular, our experiments proved that a tactile mapping of distance to vibration intensity or vibration position on the skin can be used to determine a virtual object's depth. Depth estimation when using only tactile feedback was more accurate than when using only visual feedback, and when using visuotactile feedback it was more precise and occurred faster than when using unimodal feedback. Our work demonstrates the value of multimodal feedback in augmented reality applications that require correct depth perception, and provides insights on various possible visuotactile implementations.

Original language	English
Title of host publication	ICMI’16: Proceedings of the 18th ACM International Conference on Multimodal Interaction
Subtitle of host publication	Tokyo, Japan-November 12-16, 2016
Editors	Yukiko I. Nakano, Elisabeth André, Toyoaki Nishida
Publisher	Association for Computing Machinery
Pages	45-52
ISBN (Print)	978-1-4503-4556-9
DOIs	https://doi.org/10.1145/2993148.2993156
Publication status	Published - Nov 2016
Event	18th International Conference on Multimodal Interaction - Tokyo, Japan Duration: 12 Nov 2016 → 16 Nov 2016

Conference

Conference	18th International Conference on Multimodal Interaction
Country/Territory	Japan
City	Tokyo
Period	12/11/16 → 16/11/16

Keywords

Augmented reality
multisensory perception
haptics
sensory redundancy
sensory substitution
depth perception

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10.1145/2993148.2993156

rosa_visuotactileFinal published version, 7.31 MBLicence: Taverne

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Rosa, N. E., Hürst, W. O., Werkhoven, P. J., & Veltkamp, R. C. (2016). Visuotactile Integration for Depth Perception in Augmented Reality. In Y. I. Nakano, E. André, & T. Nishida (Eds.), ICMI’16: Proceedings of the 18th ACM International Conference on Multimodal Interaction: Tokyo, Japan-November 12-16, 2016 (pp. 45-52). Association for Computing Machinery. https://doi.org/10.1145/2993148.2993156

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title = "Visuotactile Integration for Depth Perception in Augmented Reality",

abstract = "Augmented reality applications using stereo head-mounted displays are not capable of perfectly blending real and virtual objects. For example, depth in the real world is perceived through cues such as accommodation and vergence. However, in stereo head-mounted displays these cues are disconnected since the virtual is generally projected at a static distance, while vergence changes with depth. This conflict can result in biased depth estimation of virtual objects in a real environment. In this research, we examined whether redundant tactile feedback can reduce the bias in perceived depth in a reaching task. In particular, our experiments proved that a tactile mapping of distance to vibration intensity or vibration position on the skin can be used to determine a virtual object's depth. Depth estimation when using only tactile feedback was more accurate than when using only visual feedback, and when using visuotactile feedback it was more precise and occurred faster than when using unimodal feedback. Our work demonstrates the value of multimodal feedback in augmented reality applications that require correct depth perception, and provides insights on various possible visuotactile implementations.",

keywords = "Augmented reality, multisensory perception, haptics, sensory redundancy, sensory substitution, depth perception",

author = "N.E. Rosa and W.O. H{\"u}rst and P.J. Werkhoven and R.C. Veltkamp",

year = "2016",

month = nov,

doi = "10.1145/2993148.2993156",

language = "English",

isbn = "978-1-4503-4556-9",

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editor = "{ Nakano}, {Yukiko I.} and Andr{\'e}, {Elisabeth } and Nishida, {Toyoaki }",

booktitle = "ICMI{\textquoteright}16: Proceedings of the 18th ACM International Conference on Multimodal Interaction",

publisher = "Association for Computing Machinery",

address = "United States",

note = "18th International Conference on Multimodal Interaction ; Conference date: 12-11-2016 Through 16-11-2016",

}

Rosa, NE, Hürst, WO , Werkhoven, PJ & Veltkamp, RC 2016, Visuotactile Integration for Depth Perception in Augmented Reality. in YI Nakano, E André & T Nishida (eds), ICMI’16: Proceedings of the 18th ACM International Conference on Multimodal Interaction: Tokyo, Japan-November 12-16, 2016 . Association for Computing Machinery, pp. 45-52, 18th International Conference on Multimodal Interaction, Tokyo, Japan, 12/11/16. https://doi.org/10.1145/2993148.2993156

Visuotactile Integration for Depth Perception in Augmented Reality. / Rosa, N.E.; Hürst, W.O.; Werkhoven, P.J. et al.
ICMI’16: Proceedings of the 18th ACM International Conference on Multimodal Interaction: Tokyo, Japan-November 12-16, 2016 . ed. / Yukiko I. Nakano; Elisabeth André; Toyoaki Nishida. Association for Computing Machinery, 2016. p. 45-52.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Visuotactile Integration for Depth Perception in Augmented Reality

AU - Rosa, N.E.

AU - Hürst, W.O.

AU - Werkhoven, P.J.

AU - Veltkamp, R.C.

PY - 2016/11

Y1 - 2016/11

N2 - Augmented reality applications using stereo head-mounted displays are not capable of perfectly blending real and virtual objects. For example, depth in the real world is perceived through cues such as accommodation and vergence. However, in stereo head-mounted displays these cues are disconnected since the virtual is generally projected at a static distance, while vergence changes with depth. This conflict can result in biased depth estimation of virtual objects in a real environment. In this research, we examined whether redundant tactile feedback can reduce the bias in perceived depth in a reaching task. In particular, our experiments proved that a tactile mapping of distance to vibration intensity or vibration position on the skin can be used to determine a virtual object's depth. Depth estimation when using only tactile feedback was more accurate than when using only visual feedback, and when using visuotactile feedback it was more precise and occurred faster than when using unimodal feedback. Our work demonstrates the value of multimodal feedback in augmented reality applications that require correct depth perception, and provides insights on various possible visuotactile implementations.

AB - Augmented reality applications using stereo head-mounted displays are not capable of perfectly blending real and virtual objects. For example, depth in the real world is perceived through cues such as accommodation and vergence. However, in stereo head-mounted displays these cues are disconnected since the virtual is generally projected at a static distance, while vergence changes with depth. This conflict can result in biased depth estimation of virtual objects in a real environment. In this research, we examined whether redundant tactile feedback can reduce the bias in perceived depth in a reaching task. In particular, our experiments proved that a tactile mapping of distance to vibration intensity or vibration position on the skin can be used to determine a virtual object's depth. Depth estimation when using only tactile feedback was more accurate than when using only visual feedback, and when using visuotactile feedback it was more precise and occurred faster than when using unimodal feedback. Our work demonstrates the value of multimodal feedback in augmented reality applications that require correct depth perception, and provides insights on various possible visuotactile implementations.

KW - Augmented reality

KW - multisensory perception

KW - haptics

KW - sensory redundancy

KW - sensory substitution

KW - depth perception

U2 - 10.1145/2993148.2993156

DO - 10.1145/2993148.2993156

M3 - Conference contribution

SN - 978-1-4503-4556-9

SP - 45

EP - 52

BT - ICMI’16: Proceedings of the 18th ACM International Conference on Multimodal Interaction

A2 - Nakano, Yukiko I.

A2 - André, Elisabeth

A2 - Nishida, Toyoaki

PB - Association for Computing Machinery

T2 - 18th International Conference on Multimodal Interaction

Y2 - 12 November 2016 through 16 November 2016

ER -

Visuotactile Integration for Depth Perception in Augmented Reality

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