Journal of Textile Research ›› 2025, Vol. 46 ›› Issue (05): 214-221.doi: 10.13475/j.fzxb.20240203601

• Apparel Engineering • Previous Articles     Next Articles

Three-dimensional simulation of fully-fashioned skirt based on mesh model

GU Wenmin, JIANG Gaoming(), LIU Haisang, LI Bingxian   

  1. Engineering Research Center for Knitting Technology, Ministry of Education, Jiangnan University, Wuxi, Jiangsu 214122, China
  • Received:2024-02-28 Revised:2024-11-13 Online:2025-05-15 Published:2025-06-18
  • Contact: JIANG Gaoming E-mail:jgm@jiangnan.edu.cn

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Abstract:

Objective In order to address the challenges in the rapid design and three-dimensional (3-D) simulation of fully-fashioned skirts, which are key components of flat-knitting sweater products, by achieving efficient 3-D simulation, the study aims to predict fabric structural effects, provide new design methodologies, and offer theoretical and practical guidance for the development of fully-fashioned skirts.
Method Pattern diagrams, structure diagrams, and process knitting diagrams are encoded using matrix numbers, with color codes serving as a bridge to establish relationships between them. This approach facilitates information conversion and interaction design between skirt templates and computer knitting files. A geometric loop model and grid model are constructed to integrate the boundary and internal grid structures of loops. Spatial coordinates of value points are determined based on the index relationship between two-dimensional (2-D) and 3-D OBJ models. Using WebGL technology and 3-D spline curves, the iTDS system achieves real-time 3-D simulation. The program is developed in Visual Studio using C# language.
Results The research successfully develops a digital design framework for fully-fashioned skirts, significantly reducing design difficulty, storage space, and computational time. A 3-D loop model and grid model are established based on actual loop shapes and the classical 2-D Peirce loop model. Proportional relationships between loop control points and model points are analyzed, enabling precise determination of triangular surfaces for each loop type value point. Planar loop shape points and grid points are rapidly converted into spatial coordinates, achieving accurate 3-D simulation based on the loop structure.
Conclusion On the basis of constructing an ideal geometric model of fabric loops, the study demonstrates that rapid design and 3-D simulation of fully-fashioned skirts can be achieved through the integration of pattern diagrams, structure diagrams, and process knitting diagrams. While the current geometric model effectively represents fabric series relationships, further research is required to incorporate physical and mechanical models for more realistic simulations of specific structures. This study provides both theoretical insights and practical tools for the design and development of fully-fashioned skirts.

Key words: skirt fully-fashioned, flat-knitting technique, knitting structure, stitch model, mesh model, three-dimensional simulation

CLC Number: 

  • TS186.2

Fig.1

Classification of skirt silhouette. (a) Tight skirt;(b) Semi-fitting skirt; (c)A-line skirt; (d) Round skirt"

Fig.2

Pattern diagram acquisition and design process"

Fig.3

Schematic diagram of unfolding process"

Fig.4

Matrix relationship transformation of unfolding process diagram"

Fig.5

Stitch model diagram. (a)Front view; (b)Side view"

Fig.6

Stitch grid model"

Fig.7

Stitch string diagram"

Fig.8

Stitch translation schematic diagram"

Fig.9

Stitch grid diagram"

Fig.10

Front and rear boundary mesh combination of hip-wrap skirt. (a) Original mesh; (b) Mesh lending; (c) Front and back mesh combination"

Fig.11

DXF model (a) and pattern diagram (b) of umbrella skirt"

Fig.12

Judgment flow chart of umbrella skirt"

Fig.13

Front and rear surface mapping"

Fig.14

Grid point attribute judgment"

Fig.15

Simulation diagram of buttock skirt. (a) Front view;(b) Side view"

Fig.16

Double Jersey buttock skirt (a) and umbrella skirt (b)"

[1] 詹必钦, 李玉贤, 董智佳, 等. 全成形双层结构针织服装部件化虚拟展示研究[J]. 纺织学报, 2022, 43(8):147-152.
ZHAN Biqin, LI Yuxian, DONG Zhijia, et al. Research on virtual display of fully-formed double-layer knitted clothing parts[J]. Journal of Textile Research, 2022, 43(8): 147-152.
[2] 钱新星, 张琦, 董智佳. 全成形立体袖毛衫结构设计与虚拟展示[J]. 上海纺织科技, 2022, 50(3):19-21,43.
QIAN Xinxing, ZHANG Qi, DONG Zhijia. Structure design and virtual showcase of fully formed three dimensional sleeve sweater[J]. Shanghai Textile Science and Technology, 2022, 50(3): 19-21,43.
[3] 赖安琪, 蒋高明, 李炳贤. 全成形毛衫花式结构三维仿真[J]. 纺织学报, 2023, 44(2):103-110.
LA Anqi, JIANG Gaomin, LI Bingxian. Three-dimensional simulation of whole garment with fancy structures[J]. Journal of Textile Research, 2023, 44(2):103-110.
[4] 彭佳佳. 基于线圈结构的全成形毛衫三维仿真[D]. 无锡: 江南大学, 2020:57-75.
PENG Jiajia. 3D simulation for complete knitwear based on loop structure[D]. Wuxi: Jiangnan University, 2020:57-75.
[5] 罗璇. 基于参数模型的羊毛衫虚拟展示研究[D]. 无锡: 江南大学, 2018:43-65.
LUO Xuan. Research the virtual display of sweater based. on the parameter model[D]. Wuxi: Jiangnan University, 2018:43-65.
[6] 刘瑞璞. 服装设计原理与应用[M]. 北京: 中国纺织出版社, 2009:98.
LIU Ruipu. Clothing design principle and appli-cation[M]. Beijing: China Textile & Apparel Press, 2009:98.
[7] 吴志明, 王盼, 王莹莹. 全成形毛衫款式设计、工艺实现及虚拟展示[J]. 针织工业, 2021(2):5-9.
WU Zhiming, WANG Pan, WANG Yingying. Style design,process realization and virtual display of integral garment[J]. Knitting Industries, 2021(2):5-9.
[8] 赵俊杰, 蒋高明, 程碧莲, 等. 毛衫绞花织物的三维仿真与实现[J]. 纺织学报, 2023, 44(12):81-87.
doi: 10.13475/j.fzxb.20220700901
ZHAO Junjie, JIANG Gaomin, CHEN Bilian, et al. Three-dimensional simulation and realization of sweater cabled fabrics[J]. Journal of Textile Research, 2023, 44(12): 81-87.
doi: 10.13475/j.fzxb.20220700901
[9] 陈钰珊, 蒋高明, 李炳贤. 纬编绕经织物设计与三维仿真[J]. 纺织学报, 2022, 43(12):62-68.
doi: 10.13475/j.fzxb.20220606907
CHEN Yushan, JIANG Gaomin, LI Bingxian. Design and 3-D simulation of weft knitted warp fabric[J]. Journal of Textile Research, 2022, 43(12): 62-68.
doi: 10.13475/j.fzxb.20220606907
[10] 郑培晓, 蒋高明. 基于WebGL的纬编提花织物三维仿真[J]. 纺织学报, 2021, 42(5):59-65.
ZHENG Peixiao, JIANG Gaomin. Three-dimensional silulation of weft-knitted jacquard fabric based on WebGL[J]. Journal of Textile Research, 2021, 42(5): 59-65.
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[10] . Modified design and three-dimensional simulation for sewing machine for sewing laminated carbon cloth [J]. JOURNAL OF TEXTILE RESEARCH, 2016, 37(10): 141-144.
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[13] . The Development of the 3D Simulation System of Weft Knitted Fabric [J]. JOURNAL OF TEXTILE RESEARCH, 2011, 32(4): 57-61.
[14] LIU Jun;LI Zhong;HU Jueliang. 3D clothing fitting research based on feature matching [J]. JOURNAL OF TEXTILE RESEARCH, 2009, 30(01): 122-126.
[15] CONG Honglian;GE Mingqiao;JIANG Gaoming. 3-D modeling for warp knitted fabric based on NURBS [J]. JOURNAL OF TEXTILE RESEARCH, 2008, 29(11): 132-136.
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