Exploring GVS as a display modality: signal amplitude and polarity, in various environments, impacts on posture, and with dual-tasking.

IF 1.7 4区 医学 Q4 NEUROSCIENCES Experimental Brain Research Pub Date : 2024-10-01 Epub Date: 2024-08-20 DOI:10.1007/s00221-024-06908-6
David R Temple, Sarah Pepper, Brady C Hogoboom, Lanna N Klausing, Abhishek Datta, Cody Burkhart, Torin K Clark
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Abstract

Galvanic Vestibular Stimulation (GVS) has been proposed as an alternative display modality to relay information without increasing demands on the visual or auditory sensory modalities of the wearer or in environments where those modalities cannot be used (e.g., covert night operations). We further investigated this concept with four experiments designed to test: (1) thresholds at which subjects could distinguish between different GVS current amplitudes and polarities, (2) thresholds at which different bipolar (i.e., sinusoidal waveform with current oscillating between left and right directions) current frequencies were distinguishable among room temperature, hot, cold, and windy environments, (3) effects of unipolar (i.e., sinusoidal waveform with current occurring in only the left or right direction) currents on balance performance, and (4) dual-task performance among frequency and polarity modulated GVS conditions during a concordant visual search task. Subjects reliably distinguished between current amplitudes that varied from a pedestal of ± 0.6 mA by a median of 0.03 mA (range of 0.02-0.32 mA) and between unipolar currents at a median amplitude of 0.55 mA (range of 0.32-0.83 mA). GVS frequency thresholds were robust to the environment conditions tested, with no statistical differences found. Sway and balance errors were increased with unipolar currents. GVS thresholds were not impacted by the dual-task paradigm, but the visual search scores were slightly elevated when congruently performing a polarity thresholding task. Overall findings continue to support GVS use as a display modality, but some limitations are noted, such as the use of unipolar currents under scenarios where postural control is important.

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将 GVS 作为一种显示模式进行探索:各种环境下的信号幅度和极性、对姿势的影响以及双重任务。
有人建议将 "电晕前庭刺激"(Galvanic Vestibular Stimulation,GVS)作为一种替代显示方式,在不增加佩戴者视觉或听觉感官模式需求的情况下,或在无法使用这些模式的环境中(如夜间隐蔽行动),传递信息。我们通过四项实验进一步研究了这一概念,旨在测试:(1) 受试者能够区分不同 GVS 电流振幅和极性的阈值;(2) 在室温、炎热、寒冷和大风环境中区分不同双极性(即电流在左右方向之间摆动的正弦波形)电流频率的阈值;(3) 单极性(即电流在左右方向之间摆动的正弦波形)电流频率的影响、3)单极(即电流只发生在左或右方向的正弦波形)电流对平衡能力的影响;以及(4)在一致视觉搜索任务中,频率和极性调制 GVS 条件下的双重任务表现。受试者能可靠地区分电流振幅中位数为 0.03 mA(范围为 0.02-0.32 mA)的基座± 0.6 mA 和振幅中位数为 0.55 mA(范围为 0.32-0.83 mA)的单极电流。GVS 频率阈值对测试的环境条件很稳定,没有发现统计差异。单极电流会增加摇摆和平衡误差。GVS阈值不受双任务范式的影响,但在同时执行极性阈值任务时,视觉搜索得分略有提高。总体研究结果继续支持将 GVS 用作一种显示模式,但也指出了一些局限性,例如在姿势控制非常重要的情况下使用单极电流。
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来源期刊
CiteScore
3.60
自引率
5.00%
发文量
228
审稿时长
1 months
期刊介绍: Founded in 1966, Experimental Brain Research publishes original contributions on many aspects of experimental research of the central and peripheral nervous system. The focus is on molecular, physiology, behavior, neurochemistry, developmental, cellular and molecular neurobiology, and experimental pathology relevant to general problems of cerebral function. The journal publishes original papers, reviews, and mini-reviews.
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