Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *

Yoichi Yamazaki; Masataka Imura; Masashi Nakatani; Shin Osanai; Noriko Nagata; Hiroya Tanaka

doi:10.1109/WHC49131.2021.9517227

Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *

Yoichi Yamazaki, Masataka Imura, Masashi Nakatani, Shin Osanai, Noriko Nagata, Hiroya Tanaka

Faculty of Environment and Information Studies

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

The force-induced displacement distribution function (FDDF) is a physical quantity with a high degree of familiarity with product production parameters and sensibility values. In this study, we proposed FDDF (Stroke) as the texture perception by stroking FDDF implementation. Moreover, we showed that FDDF (Stroke) has a highly expressive tactile perception capability for hard materials.

Original language	English
Title of host publication	2021 IEEE World Haptics Conference, WHC 2021
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1157
Number of pages	1
ISBN (Electronic)	9781665418713
DOIs	https://doi.org/10.1109/WHC49131.2021.9517227
Publication status	Published - 2021 Jul 6
Event	2021 IEEE World Haptics Conference, WHC 2021 - Virtual, Montreal, Canada Duration: 2021 Jul 6 → 2021 Jul 9

Publication series

Name	2021 IEEE World Haptics Conference, WHC 2021

Conference

Conference	2021 IEEE World Haptics Conference, WHC 2021
Country/Territory	Canada
City	Virtual, Montreal
Period	21/7/6 → 21/7/9

ASJC Scopus subject areas

Human-Computer Interaction
Control and Optimization
Sensory Systems

Access to Document

10.1109/WHC49131.2021.9517227

Cite this

Yamazaki, Y., Imura, M., Nakatani, M., Osanai, S., Nagata, N., & Tanaka, H. (2021). Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *. In 2021 IEEE World Haptics Conference, WHC 2021 (pp. 1157). (2021 IEEE World Haptics Conference, WHC 2021). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/WHC49131.2021.9517227

Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *. / Yamazaki, Yoichi; Imura, Masataka; Nakatani, Masashi et al.
2021 IEEE World Haptics Conference, WHC 2021. Institute of Electrical and Electronics Engineers Inc., 2021. p. 1157 (2021 IEEE World Haptics Conference, WHC 2021).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yamazaki, Y, Imura, M, Nakatani, M, Osanai, S, Nagata, N & Tanaka, H 2021, Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *. in 2021 IEEE World Haptics Conference, WHC 2021. 2021 IEEE World Haptics Conference, WHC 2021, Institute of Electrical and Electronics Engineers Inc., pp. 1157, 2021 IEEE World Haptics Conference, WHC 2021, Virtual, Montreal, Canada, 21/7/6. https://doi.org/10.1109/WHC49131.2021.9517227

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abstract = "The force-induced displacement distribution function (FDDF) is a physical quantity with a high degree of familiarity with product production parameters and sensibility values. In this study, we proposed FDDF (Stroke) as the texture perception by stroking FDDF implementation. Moreover, we showed that FDDF (Stroke) has a highly expressive tactile perception capability for hard materials.",

author = "Yoichi Yamazaki and Masataka Imura and Masashi Nakatani and Shin Osanai and Noriko Nagata and Hiroya Tanaka",

note = "Funding Information: *This work was partially supported by JST COI Grant Number JP-MJCE1314. Publisher Copyright: {\textcopyright} 2021 IEEE.; 2021 IEEE World Haptics Conference, WHC 2021 ; Conference date: 06-07-2021 Through 09-07-2021",

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AB - The force-induced displacement distribution function (FDDF) is a physical quantity with a high degree of familiarity with product production parameters and sensibility values. In this study, we proposed FDDF (Stroke) as the texture perception by stroking FDDF implementation. Moreover, we showed that FDDF (Stroke) has a highly expressive tactile perception capability for hard materials.

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Feature Quantification of Material Texture Perception Using a Force-Displacement Relationship *

Abstract

Publication series

Conference

ASJC Scopus subject areas

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