Evaluating motion constraints for 3D wayfinding in immersive and desktop virtual environments

Motion constraints providing guidance for 3D navigation have recently been suggested as a way of offloading some of the cognitive effort of traversing complex 3D environments on a computer. We present findings from an evaluation of the benefits of this practice where users achieved significantly better results in memory recall and performance when given access to such a guidance method. The study was conducted on both standard desktop computers with mouse and keyboard, as well as on an immersive CAVE system. Interestingly, our results also show that the improvements were more dramatic for desktop users than for CAVE users, even outperforming the latter. Furthermore, the study indicates that allowing the users to retain local control over the navigation on the desktop platform helps them in familiarizing themselves with the 3D world.

[1]  V. Leitáo,et al.  Computer Graphics: Principles and Practice , 1995 .

[2]  Desney S. Tan,et al.  Exploring 3D navigation: combining speed-coupled flying with orbiting , 2001, CHI.

[3]  Luca Chittaro,et al.  Guiding visitors of Web3D worlds through automatically generated tours , 2003, Web3D '03.

[4]  Patrick Péruch,et al.  Acquisition of Spatial Knowledge Through Visual Exploration of Simulated Environments , 1995 .

[5]  Mary Lou Maher,et al.  A swarm algorithm for wayfinding in dynamic virtual worlds , 2005, VRST '05.

[6]  Tinsley A. Galyean Guided navigation of virtual environments , 1995, I3D '95.

[7]  L. Kaufman,et al.  Handbook of perception and human performance , 1986 .

[8]  Colin Ware,et al.  Using the bat: a six-dimensional mouse for object placement , 1988, IEEE Computer Graphics and Applications.

[9]  Michael J. Singer,et al.  Measuring Presence in Virtual Environments: A Presence Questionnaire , 1998, Presence.

[10]  Eric A. Wernert,et al.  Constrained 3D navigation with 2D controllers , 1997, Proceedings. Visualization '97 (Cat. No. 97CB36155).

[11]  Michael Norman,et al.  Nonlinear interactive motion control techniques for virtual space navigation , 1993, Proceedings of IEEE Virtual Reality Annual International Symposium.

[12]  Peter A. Hancock,et al.  Spatial Orientation in Real and Virtual Worlds , 1993 .

[13]  Dirk Bartz,et al.  Virtual voyage: interactive navigation in the human colon , 1997, SIGGRAPH.

[14]  Eric A. Wernert,et al.  A framework for assisted exploration with collaboration , 1999, Proceedings Visualization '99 (Cat. No.99CB37067).

[15]  Jock D. Mackinlay,et al.  Cone Trees: animated 3D visualizations of hierarchical information , 1991, CHI.

[16]  Christopher D. Wickens,et al.  Human Factors in Virtual Environments for the Visual Analysis of Scientific Data , 1995 .

[17]  Takeo Igarashi,et al.  Path drawing for 3D walkthrough , 1998, UIST '98.

[18]  Roy A. Ruddle,et al.  The effect of trails on first-time and subsequent navigation in a virtual environment , 2005, IEEE Proceedings. VR 2005. Virtual Reality, 2005..

[19]  Colin Ware,et al.  Exploration and virtual camera control in virtual three dimensional environments , 1990, I3D '90.

[20]  E. Tolman Cognitive maps in rats and men. , 1948, Psychological review.

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

[22]  Pere-Pau Vázquez,et al.  Way‐Finder: guided tours through complex walkthrough models , 2004, Comput. Graph. Forum.

[23]  Dennis Proffitt,et al.  Quantifying immersion in virtual reality , 1997, SIGGRAPH.

[24]  Steffi Beckhaus,et al.  Guided Exploration with Dynamic Potential Fields: the Cubical Path System , 2001, Comput. Graph. Forum.

[25]  Niklas Elmqvist,et al.  Tour generation for exploration of 3D virtual environments , 2007, VRST '07.

[26]  David H. Laidlaw,et al.  Characterizing the Effect of Level of Immersion on a 3D Marking Task , 2005 .

[27]  Jock D. Mackinlay,et al.  Rapid controlled movement through a virtual 3D workspace , 1990, SIGGRAPH.

[28]  M. Carter Computer graphics: Principles and practice , 1997 .

[29]  Luca Chittaro,et al.  3D location-pointing as a navigation aid in Virtual Environments , 2004, AVI.

[30]  Doug A. Bowman,et al.  Travel in immersive virtual environments: an evaluation of viewpoint motion control techniques , 1997, Proceedings of IEEE 1997 Annual International Symposium on Virtual Reality.