Binocular Viewing Facilitates Size Constancy for Grasping and Manual Estimation.

IF 1.4 4区工程技术 Q4 ENGINEERING, MANUFACTURING

Journal of Scheduling Pub Date : 2022-04-20 DOI:10.3390/vision6020023

Ewa Niechwiej-Szwedo, Michael Cao, Michael Barnett-Cowan

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引用次数: 0

Abstract

A prerequisite for efficient prehension is the ability to estimate an object's distance and size. While most studies demonstrate that binocular viewing is associated with a more efficient grasp programming and execution compared to monocular viewing, the factors contributing to this advantage are not fully understood. Here, we examined how binocular vision facilitates grasp scaling using two tasks: prehension and manual size estimation. Participants (n = 30) were asked to either reach and grasp an object or to provide an estimate of an object's size using their thumb and index finger. The objects were cylinders with a diameter of 0.5, 1.0, or 1.5 cm placed at three distances along the midline (40, 42, or 44 cm). Results from a linear regression analysis relating grip aperture to object size revealed that grip scaling during monocular viewing was reduced similarly for both grasping and estimation tasks. Additional analysis revealed that participants adopted a larger safety margin for grasping during monocular compared to binocular viewing, suggesting that monocular depth cues do not provide sufficient information about an object's properties, which consequently leads to a less efficient grasp execution.

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双目观看有助于抓取和手动估算的尺寸恒定性。

高效预视的先决条件是能够估计物体的距离和大小。虽然大多数研究表明，与单眼观看相比，双眼观看与更高效的抓握编程和执行有关，但导致这一优势的因素尚未完全明了。在这里，我们使用两项任务来研究双目视觉如何促进抓握缩放：前伸和手动大小估计。我们要求参与者（n = 30）伸手抓住一个物体，或者用拇指和食指估计物体的大小。物体是直径分别为 0.5、1.0 或 1.5 厘米的圆柱体，放置在沿中线的三个距离（40、42 或 44 厘米）处。将抓握孔径与物体大小相关联的线性回归分析结果表明，在单目观看时，抓握和估算任务的抓握缩放程度都有类似的降低。其他分析表明，与双目观看相比，单目观看时参与者在抓取时采用的安全系数更大，这表明单目深度线索不能提供有关物体属性的足够信息，从而导致抓取执行效率较低。

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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来源期刊

Journal of Scheduling 工程技术-工程：制造

CiteScore

3.80

自引率

10.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Scheduling provides a recognized global forum for the publication of all forms of scheduling research. First published in June 1998, Journal of Scheduling covers advances in scheduling research, such as the latest techniques, applications, theoretical issues and novel approaches to problems. The journal is of direct relevance to the areas of Computer Science, Discrete Mathematics, Operational Research, Engineering, Management, Artificial Intelligence, Construction, Distribution, Manufacturing, Transport, Aerospace and Retail and Service Industries. These disciplines face complex scheduling needs and all stand to gain from advances in scheduling technology and understanding.