Modeling human bipedal navigation in a dynamic three dimensional virtual environment

Authors:
Mark D. Thomas;Daniel W. Carruth;Bryan Robbins;John A. McGinley;Alex Morais
Affiliations:
Center for Advanced Vehicular Systems and Department of Psychology, Mississippi State, Mississippi;Center for Advanced Vehicular Systems and Department of Psychology, Mississippi State, Mississippi;Center for Advanced Vehicular Systems and Department of Computer Science and Engineering, Mississippi State, Mississippi;Center for Advanced Vehicular Systems, Mississippi State, Mississippi;Center for Advanced Vehicular Systems and Department of Computer Science and Engineering, Mississippi State, Mississippi
Venue:
ICDHM'07 Proceedings of the 1st international conference on Digital human modeling
Year:
2007

Citing 2
Cited 0

Navigating large virtual spaces

International Journal of Human-Computer Interaction - Special issue on human-virtual environment interaction
The frequent wayfinding-sequence (FWS) methodology: Finding preferred routes in complex virtual environments

International Journal of Human-Computer Studies

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Abstract

The current research sought to construct a computational model of human navigation for virtual three dimensional environments. The model was implemented within the ACT-R cognitive architecture [1]. The navigation model incorporates visual search, encoding object features and spatial relationships, motion, obstacle avoidance, and incidental visual memory.