Silvia Zanchi, Luigi F Cuturi, Giulio Sandini, Monica Gori, Elisa R Ferrè
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引用次数: 0
Abstract
While navigating through the surroundings, we constantly rely on inertial vestibular signals for self-motion along with visual and acoustic spatial references from the environment. However, the interaction between inertial cues and environmental spatial references is not yet fully understood. Here we investigated whether vestibular self-motion sensitivity is influenced by sensory spatial references. Healthy participants were administered a Vestibular Self-Motion Detection Task in which they were asked to detect vestibular self-motion sensations induced by low-intensity Galvanic Vestibular Stimulation. Participants performed this detection task with or without an external visual or acoustic spatial reference placed directly in front of them. We computed the d prime ( d ' ) as a measure of participants' vestibular sensitivity and the criterion as an index of their response bias. Results showed that the visual spatial reference increased sensitivity to detect vestibular self-motion. Conversely, the acoustic spatial reference did not influence self-motion sensitivity. Both visual and auditory spatial references did not cause changes in response bias. Environmental visual spatial references provide relevant information to enhance our ability to perceive inertial self-motion cues, suggesting a specific interaction between visual and vestibular systems in self-motion perception.
在周围环境中导航时,我们不断依靠惯性前庭信号以及来自环境的视觉和听觉空间参考来进行自我运动。然而,惯性线索与环境空间参考之间的相互作用尚未完全明了。在此,我们研究了前庭自我运动灵敏度是否受感官空间参考的影响。我们对健康的参与者进行了前庭自我运动检测任务,要求他们检测由低强度 Galvanic Vestibular Stimulation 引起的前庭自我运动感觉。受试者在有或没有外部视觉或听觉空间参照物的情况下完成这项检测任务。我们计算了 d prime ( d '),以此来衡量参与者的前庭敏感度,并计算了标准值,以此来衡量参与者的反应偏差。结果显示,视觉空间参照物提高了检测前庭自我运动的灵敏度。相反,听觉空间参照物并不影响自我运动灵敏度。视觉和听觉空间参照物都不会引起反应偏差的变化。环境视觉空间参照物提供了相关信息,提高了我们感知惯性自我运动线索的能力,这表明视觉和前庭系统在自我运动感知中存在特定的相互作用。
期刊介绍:
Multisensory Research is an interdisciplinary archival journal covering all aspects of multisensory processing including the control of action, cognition and attention. Research using any approach to increase our understanding of multisensory perceptual, behavioural, neural and computational mechanisms is encouraged. Empirical, neurophysiological, psychophysical, brain imaging, clinical, developmental, mathematical and computational analyses are welcome. Research will also be considered covering multisensory applications such as sensory substitution, crossmodal methods for delivering sensory information or multisensory approaches to robotics and engineering. Short communications and technical notes that draw attention to new developments will be included, as will reviews and commentaries on current issues. Special issues dealing with specific topics will be announced from time to time. Multisensory Research is a continuation of Seeing and Perceiving, and of Spatial Vision.