Designing smart textiles presents design constraints that differ from traditional weaving processes. However, design tools that address these needs do not yet exist, so designers of smart textiles tend to adapt their use of traditional weaving design tools toÌýaccomplish their goals. To address this problem, we are creating a computational design tool for smart textileÌýweaving that blends features from traditional weaving software with circuit design tools. The software presents new representations and processes for designing smart weaves. In the future, we hope to extend the software to support methods of generative and data-driven design.
Note: The project's name is an homage to Ada Lovelace, the 19th Century mathematician who applied punchcard technology used to define fabric patterns in commercial looms to a mechanical computational device she was developing with Charles Babbage. In so doing, she created the world's first programmable computer.ÌýÌý
This work is funded by NSF CRII: CHS: Developing Next-Generation Rapid Prototyping Tools to Catalyze Innovation in Smart Textiles (#1755587)
Ìý
Publications
Shanel WuÌýandÌýLaura Devendorf. 2020. Unfabricate: Designing Smart Textiles for Disassembly. InÌýProceedings of the 2020 CHI Conference on Human Factors in Computing SystemsÌý(CHI ’20). Association for Computing Machinery, New York, NY, USA, 1–14. DOI:Ìý(Honolulu, Hawaii (virtual)–April 25-30, 2020).
Mikhaila Friske,ÌýShanel WuÌýandÌýLaura Devendorf.Ìý2019. AdaCAD: Crafting Software For Smart Textiles Design. InÌýProceedings of the 2019 CHI Conference on Human Factors in Computing SystemsÌý(CHI '19). ACM, New York, NY, USA, Paper 345, 13 pages. DOI:ÌýÌý(Glagow, UK – May 4-9, 2019). [Best Paper Honorable Mention].
Ìý