Virtual exertions: A user interface combining visual information, kinesthetics and biofeedback for virtual object manipulation

Author

Ponto, K. ; Kimmel, R. ; Kohlmann, J. ; Bartholomew, A. ; Radwin, R.G.

Author_Institution

Univ. of Wisconsin-Madison, Madison, WI, USA

fYear

2012

fDate

4-5 March 2012

Firstpage

85

Lastpage

88

Abstract

Virtual Reality environments have the ability to present users with rich visual representations of simulated environments. However, means to interact with these types of illusions are generally unnatural in the sense that they do not match the methods humans use to grasp and move objects in the physical world. We demonstrate a system that enables users to interact with virtual objects with natural body movements by combining visual information, kinesthetics and biofeedback from electromyograms (EMG). Our method allows virtual objects to be grasped, moved and dropped through muscle exertion classification based on physical world masses. We show that users can consistently reproduce these calibrated exertions, allowing them to interface with objects in a novel way.

Keywords

electromyography; interactive systems; user interfaces; virtual reality; biofeedback; electromyograms; muscle exertion classification; natural body movements; physical world masses; user interface; virtual exertions; virtual object manipulation; virtual reality environments; visual information; visual information kinesthetics; Biological control systems; Electromyography; Force; Joints; Muscles; Virtual environments; Visualization; H.5.1 [Information Interfaces and Presentation]: Multimedia Information Systems — Artificial, augmented and virtual realities; H.5.2 [Information Interfaces and Presentation]: User Interfaces — Input devices and strategies;

fLanguage

English

Publisher

ieee

Conference_Titel

3D User Interfaces (3DUI), 2012 IEEE Symposium on

Conference_Location

Costa Mesa, CA

Print_ISBN

978-1-4673-1204-2

Type

conf

DOI

10.1109/3DUI.2012.6184189

Filename

6184189