知觉偏差作为多感觉适应系统的副作用:来自垂直和自我运动知觉的见解。

Q2 Medicine Vision (Switzerland) Pub Date : 2022-08-26 DOI:10.3390/vision6030053
Luigi F Cuturi
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引用次数: 1

摘要

感知偏差可以解释为优化过程的不利后果,否则会提高系统性能。本文综述了多感官知觉的不准确性,主要集中在垂直和自我运动的知觉上,其中前庭感觉模态起着突出的作用。垂直度的感知表明系统如何处理重力。因此,它代表了前庭知觉的间接测量。头部倾斜可能导致感知垂直性的偏差,这被解释为前庭先验集在相对于重力的最常见方向(即直立)的影响,有助于提高直立时的精度(例如,避免跌倒)。对纵向知觉的研究表明,先验习得是由视觉经验介导的,从而揭示了视觉-前庭相互联系在发展过程中的基本作用。这种多感觉相互作用可以用跨模态效应范式进行行为测试,该范式测试一种感觉模态的适应是否会引起另一种感觉模态的偏差,最终揭示被测试的感觉模态之间的联系。这些现象表明存在多感觉神经机制,这些机制不断地校准彼此之间以及与环境之间的自我运动专用感觉模式。因此,前庭感知的偏差揭示了大脑如何最佳地适应环境要求,如空间导航和环境的稳定变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Perceptual Biases as the Side Effect of a Multisensory Adaptive System: Insights from Verticality and Self-Motion Perception.

Perceptual biases can be interpreted as adverse consequences of optimal processes which otherwise improve system performance. The review presented here focuses on the investigation of inaccuracies in multisensory perception by focusing on the perception of verticality and self-motion, where the vestibular sensory modality has a prominent role. Perception of verticality indicates how the system processes gravity. Thus, it represents an indirect measurement of vestibular perception. Head tilts can lead to biases in perceived verticality, interpreted as the influence of a vestibular prior set at the most common orientation relative to gravity (i.e., upright), useful for improving precision when upright (e.g., fall avoidance). Studies on the perception of verticality across development and in the presence of blindness show that prior acquisition is mediated by visual experience, thus unveiling the fundamental role of visuo-vestibular interconnections across development. Such multisensory interactions can be behaviorally tested with cross-modal aftereffect paradigms which test whether adaptation in one sensory modality induces biases in another, eventually revealing an interconnection between the tested sensory modalities. Such phenomena indicate the presence of multisensory neural mechanisms that constantly function to calibrate self-motion dedicated sensory modalities with each other as well as with the environment. Thus, biases in vestibular perception reveal how the brain optimally adapts to environmental requests, such as spatial navigation and steady changes in the surroundings.

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来源期刊
Vision (Switzerland)
Vision (Switzerland) Health Professions-Optometry
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
11 weeks
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