A proof-of-concept study on the impact of artificial hypergravity on force-adapted target sizing for direct Augmented Reality pointing

Author

Markov-Vetter, Daniela ; Zander, Vanja ; Latsch, Joachim ; Staadt, Oliver

Author_Institution

German Aerosp. Center, Cologne, Germany

fYear

2014

fDate

March 29 2014-April 2 2014

Firstpage

95

Lastpage

96

Abstract

The performance of Augmented Reality (AR) direct object selection coded outside of the human egocentric body frame of reference is decreased under short-term altered gravity. Therefore an adequate countermeasure is required. This paper presents the results of a proof-of-concept (POC) study to investigate the impact of simulated hypergravity on target´s size and distance. For gravity-dependent resizing and -positioning we used Hooke´s law for the target deformation. The POC study was divided in two experiments, whereby hypergravity was induced by a long-arm human centrifuge and by weights attached to subjects´ dominant arm. The study showed that at higher gravity levels larger target size and larger distance between the targets led to increased performance.

Keywords

augmented reality; human factors; user interfaces; AR direct object selection; Hooke´s law; POC study; artificial hypergravity; augmented reality direct object selection; direct augmented reality pointing; force-adapted target sizing; gravity-dependent resizing; gravity-positioning; human egocentric body frame; long-arm human centrifuge; proof-of-concept study; short-term altered gravity; target deformation; Augmented reality; Educational institutions; Gravity; Heart rate variability; Optical sensors; Physiology; Visualization; Augmented Reality; interaction; usability;

fLanguage

English

Publisher

ieee

Conference_Titel

Virtual Reality (VR), 2014 iEEE

Conference_Location

Minneapolis, MN

Type

conf

DOI

10.1109/VR.2014.6802068

Filename

6802068