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基于机械感受器可感知性的非线性触觉估计模型提高了定量触觉感知能力。

Nonlinear Tactile Estimation Model Based on Perceptibility of Mechanoreceptors Improves Quantitative Tactile Sensing.

机构信息

Graduate School of Science for Open and Environmental Systems, Keio University, Yokohama 223-8522, Japan.

Department of Mechanical Engineering, Keio University, Yokohama 223-8522, Japan.

出版信息

Sensors (Basel). 2022 Sep 4;22(17):6697. doi: 10.3390/s22176697.

Abstract

Tactile sensing has attracted significant attention as a tactile quantitative evaluation method because the tactile sensation is an important factor while evaluating consumer products. Although the human tactile perception mechanism has nonlinearity, previous studies have often developed linear regression models. In contrast, this study proposes a nonlinear tactile estimation model that can estimate sensory evaluation scores from physical measurements. We extracted features from the vibration data obtained by a tactile sensor based on the perceptibility of mechanoreceptors. In parallel, a sensory evaluation test was conducted using 10 evaluation words. Then, the relationship between the extracted features and the tactile evaluation results was modeled using linear/nonlinear regressions. The best model was concluded by comparing the mean squared error between the model predictions and the actual values. The results imply that there are multiple evaluation words suitable for adopting nonlinear regression models, and the average error was 43.8% smaller than that of building only linear regression models.

摘要

触觉传感作为一种触觉定量评估方法引起了广泛关注,因为触觉是评估消费类产品的一个重要因素。尽管人类的触觉感知机制具有非线性,但以往的研究往往开发线性回归模型。相比之下,本研究提出了一种非线性触觉估计模型,可以根据物理测量值来估计感官评估分数。我们从基于机械感受器可感知性的触觉传感器获得的振动数据中提取特征。同时,使用 10 个评估词进行感官评估测试。然后,使用线性/非线性回归对提取的特征与触觉评估结果之间的关系进行建模。通过比较模型预测值与实际值之间的均方误差,得出最佳模型。结果表明,有多个评估词适合采用非线性回归模型,且平均误差比仅构建线性回归模型时小 43.8%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3ec7/9460129/d252b4036074/sensors-22-06697-g001.jpg

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