Laura Devendorf
Sasha de Koninck
ABSTRACT
As HCI continues to integrate craft techniques into its repertoire, tensions emerge between what is new and known, knowledge that resides in communities and histories rather than individuals, and how to transfer between the written word and material know-how. We explore these tensions through the process of writing, instructing, and create an introduction to weaving force sensors. The goal of this project is two fold: first, to help HCI understand the potential that a deep understanding of weave structures can hold for advancing our field, and second, to explore how a pictorial might support formats that have long been used for communicating craft knowledge.
Supplemental Material
- Lea Albaugh, Scott E. Hudson, Lining Yao, and Laura Devendorf. 2020. Investigating Underdetermination Through Interactive Computational Handweaving. In Proceedings of the 2020 ACM Designing Interactive Systems Conference. Association for Computing Machinery, New York, NY, USA, 1033–1046.Google Scholar
Digital Library
- Lea Albaugh, James McCann, Lining Yao, and Scott E. Hudson. 2021. Enabling Personal Computational Handweaving with a Low-Cost Jacquard Loom. Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems, Association for Computing Machinery, 1–10.Google Scholar
- Anni Albers. 1974. Anni Albers : On Weaving. Wesleyan, Middletown (Conn.).Google Scholar
- Sharon Alderman. 2004. Mastering Weave Structures: Transforming Ideas into Great Cloth. Interweave Press, Loveland, CO.Google Scholar
- alexmclean. Live coding the warp-weighted loom. PENELOPE. Retrieved February 17, 2022 from https://penelope.hypotheses.org/1780.Google Scholar
- Kristina Andersen, Ron Wakkary, Laura Devendorf, and Alex McLean. 2019. Digital crafts-machine-ship: creative collaborations with machines. Interactions 27, 1: 30–35.Google ScholarDigital Library
- Ulla Cyrus-Zetterstrom. 1977. Manual of Swedish Handweaving. Charles t Branford, Newton Centre, Mass.Google Scholar
- Himani Deshpande, Haruki Takahashi, and Jeeeun Kim. 2021. EscapeLoom: Fabricating New Affordances for Hand Weaving. Proceedings of the 2021 CHI Conference on Human Factors in Computing Systems, Association for Computing Machinery, 1–13.Google ScholarDigital Library
- Laura Devendorf and Chad Di Lauro. 2019. Adapting Double Weaving and Yarn Plying Techniques for Smart Textiles Applications. Proceedings of the Thirteenth International Conference on Tangible, Embedded, and Embodied Interaction, ACM, 77–85.Google ScholarDigital Library
- Ebru Kurbak Ed. 2018. Stitching Worlds. Berlin.Google Scholar
- Raune Frankjær and Peter Dalsgaard. 2018. Understanding Craft-Based Inquiry in HCI. Proceedings of the 2018 Designing Interactive Systems Conference, Association for Computing Machinery, 473–484.Google ScholarDigital Library
- Mikhaila Friske, Shanel Wu, and Laura Devendorf. 2019. AdaCAD: Crafting Software For Smart Textiles Design. Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems, ACM, 345:1-345:13.Google ScholarDigital Library
- Bruna Goveia da Rocha and Kristina Andersen. 2020. Becoming Travelers: Enabling the Material Drift. Companion Publication of the 2020 ACM Designing Interactive Systems Conference, Association for Computing Machinery, 215–219.Google Scholar
- Julie Holyoke. 2021. Digital Jacquard Design. Bloomsbury Visual Arts.Google Scholar
- Cedric Honnet, Hannah Perner-Wilson, Marc Teyssier, 2020. PolySense: Augmenting Textiles with Electrical Functionality using In-Situ Polymerization. In Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems. Association for Computing Machinery, New York, NY, USA, 1–13.Google ScholarDigital Library
- Madelyn Van Der Hoogt. 1993. The Complete Book of Drafting for Handweavers. Shuttle Craft Books, Coupeville, WA.Google Scholar
- Scott E. Hudson. 2014. Printing Teddy Bears: A Technique for 3D Printing of Soft Interactive Objects. Proceedings of the SIGCHI Conference on Human Factors in Computing Systems, ACM, 459–468.Google ScholarDigital Library
- Lee Jones. 2021. The E-darning Sampler: Exploring E-textile Repair with Darning Looms. In Proceedings of the Fifteenth International Conference on Tangible, Embedded, and Embodied Interaction. Association for Computing Machinery, New York, NY, USA, 1–5.Google ScholarDigital Library
- Lois Martin. 2002. The Direction of Cloth: the Horizontal Dimension. Surface Design Journal 26, 2.Google Scholar
- David McCallum. 2018. Glitching the Fabric: Strategies of new media art applied to the codes of knitting and weaving.Google Scholar
- Michael Nitsche and Anna Weisling. 2019. When is It Not Craft?: Materiality and Mediation when Craft and Computing Meet. Proceedings of the Thirteenth International Conference on Tangible, Embedded, and Embodied Interaction, ACM, 683–689.Google ScholarDigital Library
- G. H. Oelsner. 2016. A Handbook of Weaves. Forgotten Books, Place of publication not identified. [23] Alex Olwal, Jon Moeller, Greg Priest-Dorman, Thad Starner, and Ben Carroll. 2018. I/O Braid: Scalable Touch-Sensitive Lighted Cords Using Spiraling, Repeating Sensing Textiles and Fiber Optics. UIST 2018, 485–497.Google Scholar
- Daniëlle Ooms, Nick Voskuil, Kristina Andersen, and Hanna Ottilia Wallner. 2020. Ruta, a Loom for Making Sense of Industrial Weaving. Companion Publication of the 2020 ACM Designing Interactive Systems Conference, Association for Computing Machinery, 337–340.Google ScholarDigital Library
- Peggy Osterkamp. 2005. Weaving & Drafting Your Own Cloth. UNICORN BOOKS & CRAFTS, Sausalito, Calif.Google Scholar
- Jeroen Peeters, Rosa van der Veen, and Ambra Trotto. 2020. Pictorial Unleashed: Into the Folds of Interactive Qualities. In Proceedings of the 2020 ACM Designing Interactive Systems Conference. Association for Computing Machinery, New York, NY, USA, 925–938.Google ScholarDigital Library
- Emmi Pouta and Jussi Mikkonen. 2019. Hand Puppet as Means for eTextile Synthesis. Proceedings of the Thirteenth International Conference on Tangible, Embedded, and Embodied Interaction, Association for Computing Machinery, 415–421.Google ScholarDigital Library
- Timo Rissanen and Holly McQuillan. 2016. Zero Waste Fashion Design. Fairchild Books, London; New York.Google Scholar
- Michael L. Rivera and Scott E. Hudson. 2019. Desktop Electrospinning: A Single Extruder 3D Printer for Producing Rigid Plastic and Electrospun Textiles. In Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems. Association for Computing Machinery, New York, NY, USA, 1–12.Google Scholar
- Ruojia Sun, Ryosuke Onose, Margaret Dunne, Andrea Ling, Amanda Denham, and Hsin-Liu (Cindy) Kao. 2020. Weaving a Second Skin: Exploring Opportunities for Crafting On-Skin Interfaces Through Weaving. In Proceedings of the 2020 ACM Designing Interactive Systems Conference. Association for Computing Machinery, New York, NY, USA, 365–377.Google ScholarDigital Library
- Shanel Wu and Laura Devendorf. 2020. Unfabricate: Designing Smart Textiles for Disassembly. In Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems. Association for Computing Machinery, New York, NY, USA, 1–14.Google ScholarDigital Library
- Enrique Zeleny. 2013. Ada Deitz Polynomials for Handwoven Textiles. Wolfram Demonstrations Project. Retrieved February 17, 2022 from http://demonstrations.wolfram.com/AdaDeitzPolynomialsForHandwovenTextiles/.Google Scholar
- Clement Zheng, HyunJoo Oh, Laura Devendorf, and Ellen Yi-Luen Do. 2019. Sensing Kirigami. Proceedings of the 2019 on Designing Interactive Systems Conference, Association for Computing Machinery, 921–934.Google ScholarDigital Library
- Complex Weavers. Retrieved February 17, 2022 from https://www.complex-weavers.org/member-resources/journal-index/.Google Scholar
- Inlay or Knit-weaving. Assia Brill. Retrieved February 17, 2022 from https://assiabrill.com/knitting-2/inlay-or-knit-weaving/.Google Scholar
- Tatsuki Hayama | artworks - Generative Art with Mathematics. Retrieved February 17, 2022 from https://tomoe.me/generative-art.Google Scholar
- KOBAKANT. Retrieved February 17, 2022 from https://www.kobakant.at/?p=432.Google Scholar
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