Abstract
For practical reasons, research on the recognition of objects from different viewpoints has relied almost exclusively on the use of two-dimensional representations of three-dimensional objects. We describe an apparatus that enables the presentation of three-dimensional objects in a discrimination learning paradigm. Three chambers positioned on a movable table allow each of two objects to be presented on either the left or the right side; a viewing window exposes only two of the objects at a time. The objects can be arbitrarily designated as either an S+ or an S−. In addition, they can be placed precisely in any arbitrary Startposition and rotated in depth in 100 steps of 3.6° each. We have successfully used this apparatus to investigate recognition of depth-rotated objects by both pigeons and humans. By varying the stimuli, number of stimulus chambers, and software programs, the apparatus can be used for other types of tasks and to investigate other types of processes.
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This research was supported by Natural Sciences and Engineering Research Council of Canada grants to M. L. S. and A. F. The three-dimensional printer used to generate the stimuli was funded by an MACI grant to Robert Lederer, Industrial Design Division, University of Alberta.
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Friedman, A., Spetch, M.L. & Lank, I. An automated apparatus for presenting depth-rotated three-dimensional objects in human and animal object recognition research. Behavior Research Methods, Instruments, & Computers 35, 343–349 (2003). https://doi.org/10.3758/BF03202563
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DOI: https://doi.org/10.3758/BF03202563