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感觉运动适应揭示了三维感知中的系统性偏差。

Sensorimotor adaptation reveals systematic biases in 3D perception.

作者信息

Lim Chaeeun, Vishwanath Dhanraj, Domini Fulvio

机构信息

Brown University, Cognitive and Psychological Sciences, Providence, 02912, USA.

University of St Andrews, School of Psychology and Neuroscience, St Andrews, KY16 9AJ, UK.

出版信息

Sci Rep. 2025 Jan 31;15(1):3847. doi: 10.1038/s41598-025-88214-x.

DOI:10.1038/s41598-025-88214-x
PMID:39885329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11782619/
Abstract

The existence of biases in visual perception and their impact on visually guided actions has long been a fundamental yet unresolved question. Evidence revealing perceptual or visuomotor biases has typically been disregarded because such biases in spatial judgments can often be attributed to experimental measurement confounds. To resolve this controversy, we leveraged the visuomotor system's adaptation mechanism - triggered only by a discrepancy between visual estimates and sensory feedback - to directly indicate whether systematic errors in perceptual and visuomotor spatial judgments exist. To resolve this controversy, we leveraged the adaptive mechanisms of the visuomotor system to directly reveal whether systematic biases or errors in perceptual and visuomotor spatial judgments exist. In a within-subject study (N=24), participants grasped a virtual 3D object with varying numbers of depth cues (single vs. multiple) while receiving haptic feedback. The resulting visuomotor adaptations and aftereffects demonstrated that the planned grip size, determined by the visually perceived depth of the object, was consistently overestimated. This overestimation intensified when multiple cues were present, despite no actual change in physical depth. These findings conclusively confirm the presence of inherent biases in visual estimates for both perception and action, and highlight the potential use of visuomotor adaptation as a novel tool for understanding perceptual biases.

摘要

视觉感知中的偏差及其对视觉引导行为的影响长期以来一直是一个基本但尚未解决的问题。揭示感知或视觉运动偏差的证据通常被忽视,因为空间判断中的此类偏差往往可归因于实验测量的混杂因素。为了解决这一争议,我们利用视觉运动系统的适应机制——仅由视觉估计与感觉反馈之间的差异触发——来直接表明感知和视觉运动空间判断中是否存在系统误差。为了解决这一争议,我们利用视觉运动系统的适应机制直接揭示感知和视觉运动空间判断中是否存在系统偏差或误差。在一项受试者内研究(N = 24)中,参与者在接收触觉反馈的同时抓取具有不同深度线索数量(单线索与多线索)的虚拟3D物体。由此产生的视觉运动适应和后效应表明,由视觉感知到的物体深度所决定的计划抓握尺寸一直被高估。当存在多个线索时,尽管物理深度没有实际变化,但这种高估会加剧。这些发现最终证实了视觉估计在感知和行动方面存在固有偏差,并强调了视觉运动适应作为理解感知偏差的一种新工具的潜在用途。

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