Interacting with eye movements in virtual environments

Eye movement-based interaction offers the potential of easy, natural, and fast ways of interacting in virtual environments. However, there is little empirical evidence about the advantages or disadvantages of this approach. We developed a new interaction technique for eye movement interaction in a virtual environment and compared it to more conventional 3-D pointing. We conducted an experiment to compare performance of the two interaction types and to assess their impacts on spatial memory of subjects and to explore subjects' satisfaction with the two types of interactions. We found that the eye movement-based interaction was faster than pointing, especially for distant objects. However, subjects' ability to recall spatial information was weaker in the eye condition than the pointing one. Subjects reported equal satisfaction with both types of interactions, despite the technology limitations of current eye tracking equipment.

[1]  William J. Weiland,et al.  Eye-Voice-Controlled Interface , 1986 .

[2]  Doug A. Bowman,et al.  An evaluation of techniques for grabbing and manipulating remote objects in immersive virtual environments , 1997, SI3D.

[3]  William J. Doll,et al.  The Measurement of End-User Computing Satisfaction , 1988, MIS Q..

[4]  Francis K. H. Quek Eyes in the interface , 1995, Image Vis. Comput..

[5]  Ivan Poupyrev,et al.  The go-go interaction technique: non-linear mapping for direct manipulation in VR , 1996, UIST '96.

[6]  Robert J. K. Jacob,et al.  Evaluation of eye gaze interaction , 2000, CHI.

[7]  Ben Shneiderman,et al.  Designing the User Interface: Strategies for Effective Human-Computer Interaction , 1998 .

[8]  Robert J. K. Jacob,et al.  Eye tracking in advanced interface design , 1995 .

[9]  Colin Ware,et al.  An evaluation of an eye tracker as a device for computer input2 , 1987, CHI 1987.

[10]  C. Ware,et al.  An evaluation of an eye tracker as a device for computer input2 , 1987, CHI '87.

[11]  Scott E. Hudson,et al.  Head-tracked orbital viewing: an interaction technique for immersive virtual environments , 1996, UIST '96.

[12]  Andrew S. Forsberg,et al.  Aperture based selection for immersive virtual environments , 1996, UIST '96.

[13]  Jakob Nielsen,et al.  Noncommand user interfaces , 1993, CACM.

[14]  Jim Holder,et al.  User interfaces , 1985, ALET.

[15]  Robert J. K. Jacob A visual language for non-WIMP user interfaces , 1996, Proceedings 1996 IEEE Symposium on Visual Languages.

[16]  Frederick P. Brooks,et al.  Moving objects in space: exploiting proprioception in virtual-environment interaction , 1997, SIGGRAPH.

[17]  Richard A. Bolt,et al.  A gaze-responsive self-disclosing display , 1990, CHI '90.

[18]  Robert J. K. Jacob,et al.  A software model and specification language for non-WIMP user interfaces , 1999, TCHI.

[19]  Rudy Darken,et al.  Wayfinding strategies and behaviors in large virtual worlds , 1996, CHI.

[20]  Richard A. Bolt,et al.  Gaze-orchestrated dynamic windows , 1981, SIGGRAPH '81.