Intangibles wear materiality via material composition. Kwon, H., Kim, H., & Lee, W. Personal and Ubiquitous Computing, 18(3):651–669, March, 2014. ![Intangibles wear materiality via material composition [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex The importance of material is gradually increasing in human–computer interfaces (HCIs), especially in the design of physical objects that embody digital information. Because digital information is not comprised of physical material (Belenguer et al., in Proceedings of the Sixth International Conference on Tangible, Embedded and Embodied Interaction, ACM, New York, pp 205–212, 2012) that provides tactile feedback, advancements in HCI research involve combining physical matter with digital representations to embed materiality in immaterial beings. The emergence of new material and transmaterial (Brownell, in transmaterial: a catalog of materials that redefine our physical environment. Princeton Architectural Press, New York, 2005) indicates that material is increasingly becoming a priority in the interaction design field. We emphasize the importance of material in interaction design and discuss categories of material properties according to the characteristics of interactive systems. We divide the pre-existing materials of interaction design into three categories: tangible material, intangible material, and computational material. The relationship between tangible and computational materials has been profoundly discussed since the origin of the tangible user interface. However, intangible materials, such as air, light, and magnetism, are commonly disregarded as distinctive categorical materials in interaction design. In this paper, we argue the effectiveness of intangible materials when they are coupled with tangible and computational mediums and discuss the framework for material composition in interaction design.
@article{kwon_intangibles_2014,
title = {Intangibles wear materiality via material composition},
volume = {18},
issn = {1617-4909, 1617-4917},
url = {http://link.springer.com/10.1007/s00779-013-0688-5},
doi = {10.1007/s00779-013-0688-5},
abstract = {The importance of material is gradually increasing in human–computer interfaces (HCIs), especially in the design of physical objects that embody digital information. Because digital information is not comprised of physical material (Belenguer et al., in Proceedings of the Sixth International Conference on Tangible, Embedded and Embodied Interaction, ACM, New York, pp 205–212, 2012) that provides tactile feedback, advancements in HCI research involve combining physical matter with digital representations to embed materiality in immaterial beings. The emergence of new material and transmaterial (Brownell, in transmaterial: a catalog of materials that redefine our physical environment. Princeton Architectural Press, New York, 2005) indicates that material is increasingly becoming a priority in the interaction design field. We emphasize the importance of material in interaction design and discuss categories of material properties according to the characteristics of interactive systems. We divide the pre-existing materials of interaction design into three categories: tangible material, intangible material, and computational material. The relationship between tangible and computational materials has been profoundly discussed since the origin of the tangible user interface. However, intangible materials, such as air, light, and magnetism, are commonly disregarded as distinctive categorical materials in interaction design. In this paper, we argue the effectiveness of intangible materials when they are coupled with tangible and computational mediums and discuss the framework for material composition in interaction design.},
language = {en},
number = {3},
urldate = {2020-10-19},
journal = {Personal and Ubiquitous Computing},
author = {Kwon, Hyosun and Kim, Hwan and Lee, Woohun},
month = mar,
year = {2014},
pages = {651--669},
}
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The emergence of new material and transmaterial (Brownell, in transmaterial: a catalog of materials that redefine our physical environment. Princeton Architectural Press, New York, 2005) indicates that material is increasingly becoming a priority in the interaction design field. We emphasize the importance of material in interaction design and discuss categories of material properties according to the characteristics of interactive systems. We divide the pre-existing materials of interaction design into three categories: tangible material, intangible material, and computational material. The relationship between tangible and computational materials has been profoundly discussed since the origin of the tangible user interface. However, intangible materials, such as air, light, and magnetism, are commonly disregarded as distinctive categorical materials in interaction design. 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