工具感应物体信息可有效支持视觉进行多感官抓取。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-08-01 DOI:10.1037/xge0001592
Ivan Camponogara, Alessandro Farnè, Robert Volcic
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引用次数: 0

摘要

工具使人类的感知能力超越了双手的自然极限,使人类能够像直接使用双手一样感知物体。手与物体的直接互动(以手为基础的感知)与将感知信息处理能力扩展到手以外的能力(以工具为媒介的感知)之间存在相似之处,这就意味着存在将工具和手感知到的信息与视觉进行整合的类似过程,这就提出了一个问题:在双臂操作物体时,工具是否支持视觉。在此,我们研究了参与者在用工具或手抓取物体时的表现,并将这些情况与视觉引导下的抓取进行了比较(实验 1)。通过测量反应时间、峰值速度和抓握孔径峰值,我们发现,与只看到物体时相比,当看到物体并用工具或对侧手抓握时,动作开始得更早,抓握孔径峰值也更小。因此,在多感官抓握中,以工具为媒介的感知有效地支持了视觉,而且更有趣的是,它类似于以手为基础的感知。我们排除了因工具手柄受力而导致的结果(实验 2)。此外,与手部感应一样,我们发现有证据表明工具主要通过提供物体位置信息来支持视觉(实验 3)。因此,将工具感应到的物体位置与视觉结合起来足以促进抓握时的多感官优势。我们的研究结果表明,即使只是通过工具间接感知物体信息,多感官整合机制也能显著改善抓握动作,并对对侧手部动作进行微调。(PsycInfo Database Record (c) 2024 APA, 版权所有)。
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Tool-sensed object information effectively supports vision for multisensory grasping.

Tools enable humans to extend their sensing abilities beyond the natural limits of their hands, allowing them to sense objects as if they were using their hands directly. The similarities between direct hand interactions with objects (hand-based sensing) and the ability to extend sensory information processing beyond the hand (tool-mediated sensing) entail the existence of comparable processes for integrating tool- and hand-sensed information with vision, raising the question of whether tools support vision in bimanual object manipulations. Here, we investigated participants' performance while grasping objects either held with a tool or with their hand and compared these conditions with visually guided grasping (Experiment 1). By measuring reaction time, peak velocity, and peak of grip aperture, we found that actions were initiated earlier and performed with a smaller peak grip aperture when the object was seen and held with the tool or the contralateral hand compared to when it was only seen. Thus, tool-mediated sensing effectively supports vision in multisensory grasping and, even more intriguingly, resembles hand-based sensing. We excluded that results were due to the force exerted on the tool's handle (Experiment 2). Additionally, as for hand-based sensing, we found evidence that the tool supports vision by mainly providing object positional information (Experiment 3). Thus, integrating the tool-sensed position of the object with vision is sufficient to promote a multisensory advantage in grasping. Our findings indicate that multisensory integration mechanisms significantly improve grasping actions and fine-tune contralateral hand movements even when object information is only indirectly sensed through a tool. (PsycInfo Database Record (c) 2024 APA, all rights reserved).

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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