@article{oai:ipsj.ixsq.nii.ac.jp:02000029,
 author = {鎌田,航誠 and 高橋,治輝 and 塚田,浩二 and Kosei Kamata and Haruki Takahashi and Koji Tsukada},
 issue = {2},
 journal = {情報処理学会論文誌},
 month = {Feb},
 note = {本研究では，安価な熱溶解積層方式の3Dプリンタで造形可能な細かい毛の集合体（毛構造）の拡張について提案する．先行研究で提案されていた毛構造の造形手法を活用し，導電性/強磁性などを備えるフィラメントを造形に用いる方式や，柔軟に変形させることができるソフトレジンに毛を埋め込む方式を提案する．提案した方式で試作した毛構造を用いて，タッチ操作を検出可能な毛状インタフェースや磁石に毛先が吸い寄せられるブラシ，曲げセンサを埋め込んだ毛構造といった，インタラクション研究に活用可能な制作例を示す．材料や造形パラメータの変化させた毛の触感の印象を調査するユーザテストを実施し，調査結果を用いて柔らかい触感や軽い触感といった感性指標から毛の長さや間隔を調整する設計支援システムを実装した．, In this study, we propose an extension of fine hairs (hair structure) that can be fabricated with an inexpensive thermal-melting 3D printer. Utilizing the method of hair structure modeling proposed in our previous research, we propose a method of using conductive/ferromagnetic filaments for modeling and a method of embedding hairs in a soft resin that can be flexibly deformed. Using the hair structure prototyped with the proposed methods, we show examples of production that can be used for interaction research, such as a hair-like interface that can detect touch operations, a brush whose hairs are attracted to magnet, and a hair structure with a bending sensor embedded in soft base. We conducted a user test to investigate the tactile impression of hairs with different materials and modeling parameters, and implemented a design support system using the survey results to enable adjustment of hair length and intervals based on feeling indexes such as soft and light tactile sensations.},
 pages = {381--390},
 title = {導電性・強磁性・および土台の可撓性を持つ毛構造の造形手法と評価},
 volume = {66},
 year = {2025}
}