Your search keyword '"Hinterecker, Thomas"' showing total 2 results

1. Body-relative horizontal-vertical anisotropy in human representations of traveled distances.

Author

Hinterecker, Thomas, Pretto, Paolo, de Winkel, Ksander N., Karnath, Hans-Otto, Bülthoff, Heinrich H., and Meilinger, Tobias

Subjects

*MOTION perception (Vision), *ANISOTROPY, *MEMORY, *PSYCHOLOGY of movement, *VISUAL perception

Abstract

A growing number of studies investigated anisotropies in representations of horizontal and vertical spaces. In humans, compelling evidence for such anisotropies exists for representations of multi-floor buildings. In contrast, evidence regarding open spaces is indecisive. Our study aimed at further enhancing the understanding of horizontal and vertical spatial representations in open spaces utilizing a simple traveled distance estimation paradigm. Blindfolded participants were moved along various directions in the sagittal plane. Subsequently, participants passively reproduced the traveled distance from memory. Participants performed this task in an upright and in a 30° backward-pitch orientation. The accuracy of distance estimates in the upright orientation showed a horizontal-vertical anisotropy, with higher accuracy along the horizontal axis compared with the vertical axis. The backward-pitch orientation enabled us to investigate whether this anisotropy was body or earth-centered. The accuracy patterns of the upright condition were positively correlated with the body-relative (not the earth-relative) coordinate mapping of the backward-pitch condition, suggesting a body-centered anisotropy. Overall, this is consistent with findings on motion perception. It suggests that the distance estimation sub-process of path integration is subject to horizontal-vertical anisotropy. Based on the previous studies that showed isotropy in open spaces, we speculate that real physical self-movements or categorical versus isometric encoding are crucial factors for (an)isotropies in spatial representations. [ABSTRACT FROM AUTHOR]

Published

2018

2. No advantage for remembering horizontal over vertical spatial locations learned from a single viewpoint.

Author

Hinterecker, Thomas, Leroy, Caroline, Zhao, Mintao, Butz, Martin V., Bülthoff, Heinrich H., and Meilinger, Tobias

Subjects

*COLOR, *LEARNING, *MEMORY, *MENTAL orientation, *ROTATIONAL motion, *SPATIAL behavior, *VIRTUAL reality, *QUALITATIVE research

Abstract

Previous behavioral and neurophysiological research has shown better memory for horizontal than for vertical locations. In these studies, participants navigated toward these locations. In the present study we investigated whether the orientation of the spatial plane per se was responsible for this difference. We thus had participants learn locations visually from a single perspective and retrieve them from multiple viewpoints. In three experiments, participants studied colored tags on a horizontally or vertically oriented board within a virtual room and recalled these locations with different layout orientations (Exp. 1) or from different room-based perspectives (Exps. 2 and 3). All experiments revealed evidence for equal recall performance in horizontal and vertical memory. In addition, the patterns for recall from different test orientations were rather similar. Consequently, our results suggest that memory is qualitatively similar for both vertical and horizontal two-dimensional locations, given that these locations are learned from a single viewpoint. Thus, prior differences in spatial memory may have originated from the structure of the space or the fact that participants navigated through it. Additionally, the strong performance advantages for perspective shifts (Exps. 2 and 3) relative to layout rotations (Exp. 1) suggest that configurational judgments are not only based on memory of the relations between target objects, but also encompass the relations between target objects and the surrounding room-for example, in the form of a memorized view. [ABSTRACT FROM AUTHOR]

Published

2018