Litcius/Paper detail

SPEERLoom: An Open-Source Loom Kit for Interdisciplinary Engagement in Math, Engineering, and Textiles

Samantha Speer, Ana P Garcia-Alonzo, Joey Huang, Nickolina Yankova, Carolyn Penstein Rosé, Kylie Peppler, James McCann, Melisa Orta Martinez

202310 citationsDOIOpen Access PDF

Abstract

Weaving is a fabrication process that is grounded in mathematics and engineering: from the binary, matrix-like nature of the pattern drafts weavers have used for centuries, to the punch card programming of the first Jacquard looms. This intersection of disciplines provides an opportunity to ground abstract mathematical concepts in a concrete and embodied art, viewing this textile art through the lens of engineering. Currently, available looms are not optimized to take advantage of this opportunity to increase mathematics learning by providing hands-on interdisciplinary learning in collegiate classrooms. In this work, we present SPEERLoom: an open-source, robotic Jacquard loom kit designed to be a tool for interweaving cloth fabrication, mathematics, and engineering to support interdisciplinary learning in the classroom. We discuss the design requirements and subsequent design of SPEERLoom. We also present the results of a pilot study in a post-secondary class finding that SPEERLoom supports hands-on, interdisciplinary learning of math, engineering, and textiles.

Topics & Concepts

WeavingLOOMIntersection (aeronautics)TextileProcess (computing)EngineeringEngineering design processEmbodied cognitionComputer scienceClass (philosophy)Architectural engineeringMathematics educationMathematicsArtificial intelligenceMechanical engineeringProgramming languageMaterials scienceComposite materialAerospace engineeringAdditive Manufacturing and 3D Printing TechnologiesArchitecture and Computational DesignArt, Technology, and Culture