Project

DuoSkin

Groups

DuoSkin is a fabrication process that enables anyone to create customized functional devices that can be attached directly to the skin. Using gold metal leaf, a material that is cheap, skin-friendly, and robust for everyday wear, we demonstrate three types of on-skin interfaces: sensing touch input, displaying output, and wireless communication. DuoSkin draws from the aesthetics found in metallic jewelry-like temporary tattoos to create on-skin devices which resemble jewelry. DuoSkin devices enable users to control their mobile devices, display information, and store information on their skin while serving as a statement of personal style. We believe that in the future, on-skin electronics will no longer be black-boxed and mystified; instead, they will converge towards the user friendliness, extensibility, and aesthetics of body decorations, forming a DuoSkin integrated to the extent that it has seemingly disappeared.

Credits:
Cindy Hsin-Liu Kao, Asta Roseway*, Christian Holz*, Paul Johns*, Andres Calvo, Chris Schmandt.

MIT Media Lab in collaboration with Microsoft Research*

DuoSkin is a fabrication process that enables anyone to create customized functional devices that can be attached directly to the skin. Using gold metal leaf, a material that is cheap, skin-friendly, and robust for everyday wear, we demonstrate three types of on-skin interfaces: sensing touch input, displaying output, and wireless communication. DuoSkin draws from the aesthetics found in metallic jewelry-like temporary tattoos to create on-skin devices which resemble jewelry. DuoSkin devices enable users to control their mobile devices, display information, and store information on their skin while serving as a statement of personal style. We believe that in the future, on-skin electronics will no longer be black-boxed and mystified; instead, they will converge towards the user friendliness, extensibility, and aesthetics of body decorations, forming a DuoSkin integrated to the extent that it has seemingly disappeared.

Credits:
Cindy Hsin-Liu Kao, Asta Roseway*, Christian Holz*, Paul Johns*, Andres Calvo, Chris Schmandt.

MIT Media Lab in collaboration with Microsoft Research*