人类体感系统对动觉感觉的感觉适应证据

Antoine Weill--Duflos, Sophia Sakr, S. Haliyo, S. Régnier
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引用次数: 2

摘要

感觉适应是一种为大多数感官所熟知的现象,可能是一种优化神经系统有限处理资源的感觉信号编码的方法。这种情况在听觉、嗅觉、味觉、视觉和某些形式的触觉中都有记载。例如,众所周知,我们的眼睛会在较暗和较亮的环境之间进行调节。我们特别感兴趣的是动觉系统中的感觉适应以及它对力的应用方式。我们提出了动觉感觉适应存在的假设。具体的假设是,我们对力的变化很敏感,而不是知道力的绝对大小。为了确定对力的感官适应的存在及其特性,我们进行了一个试点和两个实验。实验涉及58名参与者,对48名参与者的结果进行了分析。从结果中,我们能够找到对动觉反馈的一种感觉适应形式的证据。这种现象可以看作是一个时间常数为14s的高通滤波器。这些发现可以在算法中找到应用,通过缓慢降低力来减少力反馈设备所需的能量,类似于运动模拟器中的“冲洗”滤波器。
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Evidence of Sensory Adaptation to Kinaesthetic Sensations in the Human Somatosensory System
Sensory adaptation is a phenomenon well known for most of the senses and may be a way to optimize the encoding of sensory signals for the finite processing resources of the neural system. The occurrences are documented in the case of hearing, smell, taste, sight, and certain modalities of the sense of touch. For example, it is well known that our eyes adjust between darker and brighter environments. We are specifically interested in the case of sensory adaptation in the kinaesthetic system and the way it applies to forces. We make the hypothesis of the existence of kinaesthetic sensory adaptation. The specific hypothesis is that instead of knowing the absolute magnitude of a force we are sensitive to changes. To determine the existence of sensory adaptation to forces as well as its properties we led a pilot and two experiments. The experiments involved 58 participants, 48 participant’s results were analyzed. From the results, we were able to find the proof of a form of sensory adaptation to kinaesthetic feedback. This phenomenon can be seen as a high-pass filter with a time constant of 14 s. These findings can find application in algorithms to reduce the energy needed for force feedback devices by slowly decreasing the force, similarly to the "wash-out" filter in motion simulators.
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