Title :
View-based modelling of human visual navigation errors
Author :
Pickup, Lyndsey ; Fitzgibbon, Andrew ; Gilson, Stuart ; Glennerster, Andrew
Author_Institution :
Sch. of Psychol. & Clinical Language Sci., Univ. of Reading, Reading, UK
Abstract :
View-based and Cartesian representations provide rival accounts of visual navigation in humans, and here we explore possible models for the view-based case. A visual “homing” experiment was under-taken by human participants in immersive virtual reality. The distributions of end-point errors on the ground plane differed significantly in shape and extent depending on visual landmark configuration and relative goal location. A model based on simple visual cues captures important characteristics of these distributions. Augmenting visual features to include 3D elements such as stereo and motion parallax result in a set of models that describe the data accurately, demonstrating the effectiveness of a view-based approach.
Keywords :
navigation; physiological models; stereo image processing; virtual reality; visual perception; 3D elements; Cartesian representation; end point errors; ground plane; human visual navigation errors; immersive virtual reality; motion parallax; relative goal location; stereo vision; view based modelling; visual cues; visual homing experiment; visual landmark configuration; Computational modeling; Data models; Navigation; Shape; Solid modeling; Three dimensional displays; Visualization; navigation; virtual reality; visual perception;
Conference_Titel :
IVMSP Workshop, 2011 IEEE 10th
Conference_Location :
Ithaca, NY
Print_ISBN :
978-1-4577-1284-5
DOI :
10.1109/IVMSPW.2011.5970368
