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Physically Situated Tools for Exploring a Grain Space in Computational Machine Knitting

Lea Albaugh, Scott E. Hudson, Lining Yao

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Abstract

We propose an approach to enabling exploratory creativity in digital fabrication through the use of grain spaces. In material processes, “grain” describes underlying physical properties like the orientation of cellulose fibers in wood that, in aggregate, affect fabrication concerns (such as directional cutting) and outcomes (such as axes of strength and visual effects). Extending this into the realm of computational fabrication, grain spaces define a curated set of mid-level material properties as well as the underlying low-level fabrication processes needed to produce them. We specify a grain space for computational brioche knitting, use it to guide our production of a set of hybrid digital/physical tools to support quick and playful exploration of this space’s unique design affordances, and reflect on the role of such tools in creative practice.

Topics & Concepts

FabricationComputer scienceSituatedAffordanceSet (abstract data type)Space (punctuation)Flexibility (engineering)Engineering drawingHuman–computer interactionEngineeringArtificial intelligenceMathematicsProgramming languageAlternative medicinePathologyMedicineStatisticsOperating systemAdditive Manufacturing and 3D Printing TechnologiesInteractive and Immersive DisplaysArt, Technology, and Culture
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