@techreport{oai:ipsj.ixsq.nii.ac.jp:00218303,
 author = {高柳, 直歩 and 松久, 直司 and 杉浦, 裕太 and Naoto, Takayanagi and Naoji, Matsuhisa and Yuta, Sugiura},
 issue = {17},
 month = {Jun},
 note = {In this study, we propose a two-dimensional communication sheet that can be subjected to elastic strain up to approximately 50%. The sheet consists of a stretchable conductor layer, a dielectric layer, and a stretchable conductive grid layer. The sheet is made by attaching a thermoplastic polyurethane film to a commercially available quake-resistant mat and screen-printing conductive ink on top of the film. The sheet is attached directly to the surface of the human skin and can supply power to devices placed on it without interfering with the movement of joints and other parts of the body. We confirmed the effectiveness of the sheet by investigating how the transmission status changes when the sheet is actually stretched and retracted., In this study, we propose a two-dimensional communication sheet that can be subjected to elastic strain up to approximately 50%. The sheet consists of a stretchable conductor layer, a dielectric layer, and a stretchable conductive grid layer. The sheet is made by attaching a thermoplastic polyurethane film to a commercially available quake-resistant mat and screen-printing conductive ink on top of the film. The sheet is attached directly to the surface of the human skin and can supply power to devices placed on it without interfering with the movement of joints and other parts of the body. We confirmed the effectiveness of the sheet by investigating how the transmission status changes when the sheet is actually stretched and retracted.},
 title = {伸縮性を有する二次元通信シート},
 year = {2022}
}