Button Simulation and Design via FDVV Models

要旨

Designing a push-button with desired sensation and performance is challenging because the mechanical construction must have the right response characteristics. Physical simulation of a button's force-displacement (FD) response has been studied to facilitate prototyping; however, the simulations' scope and realism have been limited. In this paper, we extend FD modeling to include vibration (V) and velocity-dependence characteristics (V). The resulting FDVV models better capture tactility characteristics of buttons, including snap. They increase the range of simulated buttons and the perceived realism relative to FD models. The paper also demonstrates methods for obtaining these models, editing them, and simulating accordingly. This end-to-end approach enables the analysis, prototyping, and optimization of buttons, and supports exploring designs that would be hard to implement mechanically.

キーワード
Button
Haptic
Modeling
Simulation
Tactility
Force feedback
Vibration
Input device
Haptic rendering
FD model
FDVV model
著者
Yi-Chi Liao
Aalto University, Helsinki, Finland
Sunjun Kim
Aalto University & Korea Advanced Institute of Science and Technology, Espoo, Finland
Byungjoo Lee
Korea Advanced Institute of Science and Technology, Daejeon, Republic of Korea
Antti Oulasvirta
Aalto University, Helsinki, Finland
DOI

10.1145/3313831.3376262

論文URL

https://doi.org/10.1145/3313831.3376262

動画

会議: CHI 2020

The ACM CHI Conference on Human Factors in Computing Systems (https://chi2020.acm.org/)

セッション: Engineering design & modelling

Paper session
312 NI'IHAU
5 件の発表
2020-04-28 20:00:00
2020-04-28 21:15:00
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