Saved in:
Bibliographic Details
Main Authors: Yem, Vibol, Quartana, Mattia, Xin, Zi, Fujitsuka, Kazuhiro, Amemiya, Tomohiro
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.05145
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910689417756672
author Yem, Vibol
Quartana, Mattia
Xin, Zi
Fujitsuka, Kazuhiro
Amemiya, Tomohiro
author_facet Yem, Vibol
Quartana, Mattia
Xin, Zi
Fujitsuka, Kazuhiro
Amemiya, Tomohiro
contents Relaxation is a critical counterbalance to the demands of modern business life. Footbaths, a simple yet highly effective therapeutic practice, have been used for centuries across various cultures to promote relaxation and overall well-being. This study presents a novel approach to simulating the experience of a public footbath through the use of tactile and thermal stimulation of airflow to the calf and those on the foot soles. Our system aims to offer a realistic and immersive virtual footbath experience without the need for actual water, by controlling the temperature and airflow to mimic the sensation of soaking feet in water or a water wave. Without using actual water, our system can be more compact, highly responsive, and more reproducible. The layer of airflow is made as thin as possible by adjusting air outlet, and the Coanda effect is also considered to generate a water surface more realistic. The system can provide a multi-sensory experience, including visual and audio feedback of water flow, enhancing the relaxation and therapeutic benefits of a footbath.
format Preprint
id arxiv_https___arxiv_org_abs_2411_05145
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle v-Relax: Virtual Footbath Experiencing by Airflow and Thermal Presentation
Yem, Vibol
Quartana, Mattia
Xin, Zi
Fujitsuka, Kazuhiro
Amemiya, Tomohiro
Human-Computer Interaction
Relaxation is a critical counterbalance to the demands of modern business life. Footbaths, a simple yet highly effective therapeutic practice, have been used for centuries across various cultures to promote relaxation and overall well-being. This study presents a novel approach to simulating the experience of a public footbath through the use of tactile and thermal stimulation of airflow to the calf and those on the foot soles. Our system aims to offer a realistic and immersive virtual footbath experience without the need for actual water, by controlling the temperature and airflow to mimic the sensation of soaking feet in water or a water wave. Without using actual water, our system can be more compact, highly responsive, and more reproducible. The layer of airflow is made as thin as possible by adjusting air outlet, and the Coanda effect is also considered to generate a water surface more realistic. The system can provide a multi-sensory experience, including visual and audio feedback of water flow, enhancing the relaxation and therapeutic benefits of a footbath.
title v-Relax: Virtual Footbath Experiencing by Airflow and Thermal Presentation
topic Human-Computer Interaction
url https://arxiv.org/abs/2411.05145