A Biodynamic Basis for Perceived Categories of Action |
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Authors: | Leonard S. Mark David Vogele |
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Affiliation: | Department of Psychology Miami University, Ohio |
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Abstract: | Actors must determine whether the properties of the surface layout are sufficient to meet their specific requirements for performing an action. Warren’s (1984) study of bipedal stair climbing has demonstrated the significance of intrinsic, body-scaled measures of environmental properties for defining perceptual categories relevant to action. Whereas the absolute measure of the perceptual boundary between “climbable” and “not climbable” varied according to the actor’s size and mass, the perceived boundary was a constant proportion of each actor’s leg length. Our current study examined the perceived maximum seat height (SHmax) for the act of sitting. Experiment 1 delineated the range of surface heights that were perceived to afford sitting on. When expressed as a function of each person’s leg length (L), SHmax was remarkably stable across individuals. Unexpectedly, it was quite close to the maximum riser height determined by Warren. Experiment 2 examined whether this similarity reflected a common biodynamic requirement, since climbing and sitting require actors to lift their center of gravity above the surface of support. Perceived critical heights were obtained for both acts using the same methods and apparatus. The perceived maximum heights for each act were virtually identical. These findings are consistent with the possibility that the information used in determining critical action boundaries is already scaled with reference to some physical dimension of the actor. |
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