压痕深度和接触面积对触觉界面柔软度感知的影响。

Role of indentation depth and contact area on human perception of softness for haptic interfaces.

机构信息

Department of NanoEngineering, University of California, San Diego, 9500 Gilman Drive, Mail Code 0448, La Jolla, CA 92093-0448, USA.

Department of Psychology, University of California, San Diego, 9500 Gilman Drive, Mail Code 0109, La Jolla, CA 92093-0109, USA.

出版信息

Sci Adv. 2019 Aug 30;5(8):eaaw8845. doi: 10.1126/sciadv.aaw8845. eCollection 2019 Aug.

DOI:10.1126/sciadv.aaw8845

PMID:31497646

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6716960/

Abstract

In engineering, the "softness" of an object, as measured by an indenter, manifests as two measurable parameters: (i) indentation depth and (ii) contact area. For humans, softness is not well defined, although it is believed that perception depends on the same two parameters. Decoupling their relative contributions, however, has not been straightforward because most bulk-"off-the-shelf"-materials exhibit the same ratio between the indentation depth and contact area. Here, we decoupled indentation depth and contact area by fabricating elastomeric slabs with precise thicknesses and microstructured surfaces. Human subject experiments using two-alternative forced-choice and magnitude estimation tests showed that the indentation depth and contact area contributed independently to perceived softness. We found an explicit relationship between the perceived softness of an object and its geometric properties. Using this approach, it is possible to design objects for human interaction with a desired level of perceived softness.

摘要

在工程学中，物体的“柔软度”可以通过压痕器来测量，表现为两个可测量的参数：（i）压痕深度和（ii）接触面积。对于人类来说，柔软度的定义并不明确，尽管人们认为感知取决于相同的两个参数。然而，由于大多数块状“现成”材料在压痕深度和接触面积之间表现出相同的比例，因此很难将它们的相对贡献分离开来。在这里，我们通过制造具有精确厚度和微结构表面的弹性体平板来分离压痕深度和接触面积。使用二选一强制选择和量级估计测试的人体实验表明，压痕深度和接触面积独立地影响感知的柔软度。我们发现物体的感知柔软度与其几何特性之间存在明确的关系。使用这种方法，可以设计出具有所需感知柔软度的用于人机交互的物体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d716/6716960/ec3b38098bcc/aaw8845-F1.jpg

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压痕深度和接触面积对触觉界面柔软度感知的影响。

Role of indentation depth and contact area on human perception of softness for haptic interfaces.

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