Author: Femke Maij; Christian Seegelke; W Pieter Medendorp; Tobias Heed
Title: External location of touch is constructed post-hoc based on limb choice Document date: 2019_2_14
ID: euu5atwo_7
Snippet: A second explanation assumes that TOJ errors reflect the conflict between 89 different codes used for stimulus location. When the limbs are crossed, skin-based 90 and external spatial codes point to different sides of space, and this conflict must 91 be resolved, a process that takes time and is error-prone (Röder, Kusmierek, 92 Spence, & Schicke, 2007; Simon, Hinrichs, & Craft, 1970) . In this view, the TOJ 93 crossing effect is a marker for th.....
Document: A second explanation assumes that TOJ errors reflect the conflict between 89 different codes used for stimulus location. When the limbs are crossed, skin-based 90 and external spatial codes point to different sides of space, and this conflict must 91 be resolved, a process that takes time and is error-prone (Röder, Kusmierek, 92 Spence, & Schicke, 2007; Simon, Hinrichs, & Craft, 1970) . In this view, the TOJ 93 crossing effect is a marker for the presence of conflict and, thus, for the fact that 94 remapping into an external spatial code has taken place. Notably, the interpretation 95 that the TOJ crossing effect derives from a remapped stimulus location is indirect 96 because participants only report a binary decision about which hand was 97 stimulated, not the spatial location of the perceived stimulus. Increasing the 98 distance between the uncrossed hands can slightly reduce errors in TOJ (
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