Loop Order Analysis of Weft-Knitted Textiles

Levi Kapllani, Chelsea Amanatides, G. Dion, D. Breen
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引用次数: 1

Abstract

In this paper, we describe algorithms that perform loop order analysis of weft-knitted textiles, which build upon the foundational TopoKnit topological data structure and associated query functions. During knitting, loops of yarn may be overlayed on top of each other and then stitched together with another piece of yarn. Loop order analysis aims to determine the front-to-back ordering of these overlapping loops, given a stitch pattern that defines the knitted fabric. Loop order information is crucial for the simulation of electrical current, water, force, and heat flow within functional fabrics. The new algorithms are based on the assumption that stitch instructions are executed row-by-row and for each row the instructions can be executed in any temporal order. To make our algorithms knitting-machine-independent, loop order analysis utilizes precedence rules that capture the order that stitch commands are executed when a row of yarn loops are being knitted by a two-bed flat weft knitting machine. Basing the algorithms on precedence rules allows them to be modified to adapt to the analysis of fabrics manufactured on a variety of knitting machines that may execute stitch commands in different temporal orders. Additionally, we have developed visualization methods for displaying the loop order information within the context of a TopoKnit yarn topology graph.
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纬编织物的环序分析
在本文中,我们描述了对纬编纺织品进行循环顺序分析的算法,该算法建立在基本的topokunit拓扑数据结构和相关查询函数的基础上。在编织过程中,一圈一圈的纱线可以相互叠加,然后与另一段纱线缝合在一起。环序分析的目的是确定这些重叠环的前后顺序,给定定义针织织物的针迹图案。回路顺序信息是至关重要的模拟电流,水,力和热流在功能织物。新的算法是基于这样的假设,即针法指令是逐行执行的,每一行指令都可以按任何时间顺序执行。为了使我们的算法与针织机无关,循环顺序分析利用了优先规则,这些规则捕获了在双床平纬针织机上编织一排纱线环时执行的缝合命令的顺序。基于优先规则的算法允许对其进行修改,以适应在各种编织机上生产的织物的分析,这些编织机可能以不同的时间顺序执行针迹命令。此外,我们还开发了可视化方法,用于在TopoKnit纱线拓扑图的上下文中显示循环顺序信息。
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