[1]李小辉,范慧婷.服装外轮廓识别与量化的研究进展[J].服装学报,2024,9(04):302-308.
 LI Xiaohui,FAN Huiting.Research Progress in Garment Contours Recognition and Quantification[J].Journal of Clothing Research,2024,9(04):302-308.
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服装外轮廓识别与量化的研究进展()
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《服装学报》[ISSN:2096-1928/CN:32-1864/TS]

卷:
第9卷
期数:
2024年04期
页码:
302-308
栏目:
服装人体工学
出版日期:
2024-09-12

文章信息/Info

Title:
Research Progress in Garment Contours Recognition and Quantification
作者:
李小辉1; 2;  范慧婷1
1.东华大学 服装与艺术设计学院,上海 200051; 2. 东华大学 现代服装设计与技术教育部重点实验室,上海 200051
Author(s):
LI Xiaohui1; 2;  FAN Huiting1
1. College of Fashion and Design, Donghua University, Shanghai 200051, China; 2. Key Laboratory of Clothing Design and Technology, Ministry of Education, Donghua University, Shanghai 200051, China
分类号:
TS 941.2
文献标志码:
A
摘要:
服装的外轮廓量化是服装智能化设计与生产的前提条件。介绍了服装外轮廓量化的过程,以及传统量化方法与基于人工智能的量化方法。概述了基于特征参数识别和数学公式计算的服装外轮廓量化方法,探究基于扫描等技术构建三维服装模型的外轮廓量化研究方法,并对其优缺点进行分析; 总结基于机器学习与生成网络等方法的服装外轮廓量化。服装外观廓形具有复杂柔性多变的特征,目前对服装外轮廓量化的研究大多以简单的服装为样本,应用在廓形分类等领域; 在实现服装各部位具体数值推理判断方面的应用相对不足,多为定性研究。研究认为,未来可以综合考虑外轮廓造型与服装款式及面料等多方面因素,并与人工智能技术相结合,使其向智能化、自动化领域发展。
Abstract:
The garment contour quantification is a prerequisite for the intelligent design and production of garments. This paper introduces the process and methods of garment contour quantification, including traditional methods and artificial intelligence-based quantification methods. It summarized the garment contour quantification method based on feature para-meter recognition and mathematical formula calculations, explored the research method of contour quantification based on scanning and other technologies to construct 3D garment models, and analyzed its advantages and disadvantages. Moreover, it summarizes the garment contour quantification based on machine learning and generative network methods. Currently, most research on the quantification of clothing contours uses simple clothing samples. The study results are applied in classification and other fields, but there is relatively insufficient application in specific numerical reasoning and judgment for each part of clothing, often remaining qualitative. The study suggests that future research can comprehensively consider various factors such as silhouette modeling, clothing styles and fabrics, and combine them with artificial intelligence technology to advance towards intelligence and automation.

参考文献/References:

[1] 谢玻尔, 肖立志. 女装轮廓造型对体形美感的修饰作用[J]. 服装学报, 2018, 3(5): 400- 405.
XIE Boer, XIAO Lizhi. Modification effect of the contour shape of the women’s dresses on the body-shape beauty[J]. Journal of Clothing Research, 2018, 3(5): 400- 405.(in Chinese)
[2] 傅白璐, 李峻, 刘晓刚. 基于人体分割的智能女装廓形尺寸数据库构建[J]. 纺织学报, 2018, 39(1): 119-125.
FU Bailu, LI Jun, LIU Xiaogang. Smart database of women’s clothing silhouette dimensions based on human body segmentation[J]. Journal of Textile Research, 2018, 39(1): 119-125.(in Chinese)
[3] 陶晨, 段亚峰, 印梅芬. 服装廓形的识别与量化[J]. 纺织学报, 2015, 36(5): 79-82.
TAO Chen, DUAN Yafeng, YIN Meifen. Identification and quantification of apparel silhouette[J]. Journal of Textile Research, 2015, 36(5): 79-82.(in Chinese)
[4] 龙素乔. 针织面料的悬垂性和挺括性与服装造型的关系研究[D]. 北京: 北京服装学院, 2019.
[5] 丁敏敏. 服装衣领款式图数字化识别研究与实现[D]. 上海: 东华大学, 2007.
[6] AN L,LI W. Lapel pattern recognition in flat sketches based on lapel model[J]. Journal of Donghua University(English Edition), 2014, 31(4): 463- 467.[7] 周幸子. 连衣裙款式图的识别和样板的自动生成研究[D]. 上海: 东华大学, 2021: 28- 46.
[8] BABU V R, KARUNAMOORTHY B, ARUNRAJ A, et al. Measurement of garment dimension based on switching Median filter used in image processing[C]//The 8th Annual International Seminar on Trends in Science and Science Education(Aistsse)2021. Medan, Indonesia. AIP Publishing, 2022: 2446(1).
[9] 董晨雪. 服装款式图像自动识别研究[D]. 上海: 东华大学, 2013.
[10] 李涛, 杜磊, 黄振华, 等. 服装款式图识别与样板转换技术研究进展[J]. 纺织学报, 2020, 41(8): 145-151.
LI Tao, DU Lei, HUANG Zhenhua, et al. Review on pattern conversion technology based on garment flat recognition[J]. Journal of Textile Research, 2020, 41(8): 145-151.(in Chinese)
[11] TAO C, ZHOU J, YIN M F. Silhouette identification for apparelled bodies[J]. Fibres and Textiles in Eastern Europe, 2016, 24(119): 119-124.
[12] FU B L, LIU X G. An intelligent computational framework for the definition and identification of the womenswear silhouettes[J]. International Journal of Clothing Science and Technology, 2019, 31(2): 158-180.
[13] SHAH C, SHAH J, SHAIKH M, et al. Anthropometric measurement technology using 2D images[M]//Lecture Notes in Networks and Systems. Singapore: Springer Nature Singapore, 2022: 127-142.
[14] 李鹏飞, 郑明智, 景军锋. 基于机器视觉的服装尺寸在线测量系统[J]. 毛纺科技, 2017, 45(3): 42- 47.
LI Pengfei, ZHENG Mingzhi, JING Junfeng. Measurement system of garment dimension based on Machine Vision[J]. Wool Textile Journal, 2017, 45(3): 42-47.(in Chinese)
[15] GUO Y L, WANG H Y, HU Q Y, et al. Deep learning for 3D point clouds: a survey[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2021, 43(12): 4338- 4364.
[16] 陈郁, 陈璐, 方琦. 基于三维扫描人体的西裤纸样裆弯线修正[J]. 服装学报, 2022, 7(1): 1-5.
CHEN Yu, CHEN Lu, FANG Qi. Correction of pants pattern of crotch curve based on 3D body scan[J]. Journal of Clothing Research, 2022, 7(1): 1-5.(in Chinese)
[17] PIETRONI N, DUMERY C, FALQUE R, et al. Computational pattern making from 3D garment models[J]. ACM Transactions on Graphics, 2022, 41(4): 1-14.[18] 张益洁, 李涛, 吕叶馨, 等. 服装松量设计及表征模型构建研究进展[J]. 纺织学报, 2021, 42(4): 184-190.
ZHANG Yijie, LI Tao, LYU Yexin, et al. Progress in garment ease design and its modeling methods[J]. Journal of Textile Research, 2021, 42(4): 184-190.(in Chinese)
[19] LU Y C, CHA J H, YOUM S K, et al. Parametric shape estimation of human body under wide clothing[J]. IEEE Transactions on Multimedia, 2021, 23: 3657-3669.
[20] 元菁, 申鸿. 基于四川省女青年腰腹臀体型特征的皮裤样板优化方案[J]. 皮革科学与工程, 2023, 33(6): 104-108.
HUANG Yuanjing, SHEN Hong. Optimization plan for leather pants template based on waist-abdomen-hip body shape characteristics of young women in Sichuan Province[J]. Leather Science and Engineering, 2023, 33(6): 104-108.(in Chinese)
[21] NIWA M, NAKANISHI M, AYADA M, et al. Optimum silhouette design for Ladies’ garments based on the mechanical properties of a fabric[J]. Textile Research Journal, 1998, 68(8): 578-588.
[22] ZHANG J, INNAMI N, KIM K, et al. Upper garment 3D modeling for pattern making[J]. International Journal of Clothing Science and Technology, 2015, 27(6): 852-869.
[23] ZHANG Y J, MA L, GUO Z Y, et al. Personalized garment pattern generation based on space vectorand distance ease[J]. International Journal of Clothing Science and Technology, 2023, 35(5): 715-737.
[24] BI H J, SUN Y, ZOU F Y, et al. Effect of waist ease distribution on aesthetic fit[J]. Textile Research Journal, 2022, 92(17/18): 3179-3192.
[25] SAKATA Y, KIM K, TAKATERA M. Suitable ranges of ease allowance for appearance of women’s shirts of fit and straight styles[J]. International Journal of Clothing Science and Technology, 2021, 33(3): 448- 464.
[26] 黄雪纯, 刘成霞. 面料性能对A字裙动态造型的影响[J]. 丝绸, 2022, 59(3): 59- 67.
HUANG Xuechun, LIU Chengxia. Influence of fabric performance on the dynamic shape of A-line skirt[J]. Journal of Silk, 2022, 59(3): 59- 67.(in Chinese)
[27] 陈丽丽, 刘成霞. 面料及运动速度对连衣裙三围形态的影响[J]. 纺织学报, 2020, 41(4): 135-141.
CHEN Lili, LIU Chengxia. Effect of fabrics and moving speed on bustline, waistline and hipline shapes of one-piece dresses[J]. Journal of Textile Research, 2020, 41(4): 135-141.(in Chinese)
[28] 施明娟, 刘成霞. 基于面料性能的A字裙截面廓形分析及预测[J]. 染整技术, 2023, 45(3): 51-57.
SHI Mingjuan, LIU Chengxia. Analysis and prediction of A-line skirt cross-sectional silhouette based on fabric performance[J]. Textile Dyeing and Finishing Journal, 2023, 45(3): 51-57.(in Chinese)
[29] 庹武, 王哓玉, 高雅昆, 等. 基于改进边缘检测算法的服装款式识别[J]. 纺织学报, 2021, 42(10): 157-162.
TUO Wu, WANG Xiaoyu, GAO Yakun, et al. Clothing style identification based on improved edge detection algorithm[J]. Journal of Textile Research, 2021, 42(10): 157-162.(in Chinese)
[30] 庄立锋, 林俊文. 基于改进Canny算法的服装款式结构特征识别与分类[J]. 实验室研究与探索, 2020, 39(5): 264-268, 301.
ZHUANG Lifeng, LIN Junwen. Recognition and classification of garment style structural features based on improved canny algorithms[J]. Research and Exploration in Laboratory, 2020, 39(5): 264-268, 301.(in Chinese)
[31] 安立新. 服装款式图提取及其模式识别的研究[D]. 上海: 东华大学, 2015.
[32] 李东, 万贤福, 汪军. 采用傅里叶描述子和支持向量机的服装款式识别方法[J]. 纺织学报, 2017, 38(5): 122-127.
LI Dong, WAN Xianfu, WANG Jun. Clothing style recognition approach using Fourier descriptors and support vector machines[J]. Journal of Textile Research, 2017, 38(5): 122-127.(in Chinese)
[33] 张飞宇, 兰扬, 朱伟, 等. 基于图卷积网络的儿童坐姿检测学习桌椅设计方法研究[J]. 家具与室内装饰, 2024, 31(1): 96-100.
ZHANG Feiyu, LAN Yang, ZHU Wei, et al. Research on the design method of children’s sitting posture detection study table and chair based on graph convolutional network[J]. Furniture & Interior Design, 2024, 31(1): 96-100.(in Chinese)
[34] 郑雨婷, 王成群, 陈亮亮, 等. 基于卷积神经网络的织物图像识别方法研究进展[J]. 现代纺织技术, 2022, 30(5): 1-11,20.
ZHENG Yuting, WANG Chengqun, CHEN Liangliang,et al. Research progress of fabric image processing methods based on convolutional neural network[J]. Advanced Textile Technology, 2022, 30(5): 1-11, 20.(in Chinese)
[35] 庹武, 刘永亮, 高雅昆, 等. 基于改进Resnet34的服装款式图廓形识别[J]. 毛纺科技, 2023, 51(6): 95-102.
TUO Wu, LIU Yongliang, GAO Yakun, et al. Garment pattern profile recognition based on improved Resnet34[J]. Wool Textile Journal, 2023, 51(6): 95-102.(in Chinese)
[36] 金光,任工昌,桓源,等. 基于改进YOLOv5的皮革抓取点识别及定位[J]. 皮革科学与工程, 2024, 34(1): 32- 40.
JIN Guang, REN Gongchang, HUAN Yuan, et al. Leather grab point identification and positioning based on improved YOLOv5[J]. Leather Science and Engineering, 2024,34(1): 32- 40.
[37] LYU K, YAN H Z. Identification method of dress pattern drawing based on machine vision algorithm[C]//2022 3rd International Conference on Computer Vision, Image and Deep Learning and International Conference on Computer Engineering and Applications.Changchun:IEEE, 2022: 76-79.
[38] WANG J P, SHEN D Y, YAO X F, et al. Establishment and application of Whole Garment Knitted Skirt Template Library combining design and technology[J]. Interna-tional Journal of Clothing Science and Technology, 2022, 34(5): 745-763.
[39] GE Y Y, ZHANG R M, WANG X G, et al. DeepFashion2: a versatile benchmark for detection, pose estimation, segmentation and re-identification of clothing images[C]//2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition.Long Beach: IEEE, 2019: 5332-5340.
[40] SHAH C, SHAH J, SHAIKH M, et al. Anthropometric measurement technology using 2D images[M]//Lecture Notes in Networks and Systems. Singapore: Springer Nature Singapore, 2022: 127-142.
[41] YANG S, AMBERT T, PAN Z, et al. Detailed Garment Recovery from a Single-View Image[J]. ACM Transactions on Graphics, 2009,28(4):106.
[42] CORONA E, PUMAROLA A, ALENYA G, et al. SMPLicit: topology-aware generative model for clothed people[C]//2021 IEEE/CVF Conference on Computer Vision and Pattern Recognition.Nashville:IEEE, 2021: 11875-11885.
[43] CHEN L, YANG J, FU H B, et al. ImplicitPCA: Implicitly-proxied parametric encoding for collision-aware garment reconstruction[J]. Graphical Models, 2023, 129: 101195.
[44] WANG T Y, CEYLAN D, POPOVIC J, et al. Learning a shared shape space for multimodal garment design[J]. ACM Transactions on Graphics, 2018, 37(6): 1-13.
[45] 孙选铭,苏淼.基于深度学习的丝绸文物纹样识别应用[J].丝绸,2023,60(8):1-10.
SUN Xuanming,SU Miao.Application of silk cultural relic pattern recognition based on deep learning[J].Journal of Silk,2023,60(8):1-10.(in Chinese)
[46] 许栋樑,任珊,杨建红.基于扎根理论的绕家服饰纹样的系统性识别与文化蕴意研究[J].丝绸,2023,60(7):116-123.
XU Dongliang,REN Shan,YANG Jianhong.Systematic identification and cultural implication research on Raojia costume patterns based on grounded theory[J].Journal of Silk,2023,60(7):116-123.(in Chinese)
[47] 刘骊, 付晓东, 王若梅, 等. 部件化构建的三维服装快速编辑方法[J]. 图学学报, 2016, 37(2): 206-213.
LIU Li, FU Xiaodong, WANG Ruomei, et al. An efficient mesh editing for component-based 3D garment generation[J]. Journal of Graphics, 2016, 37(2): 206-213.(in Chinese)
[48] 彭周艳,马玲,苏慧敏,等. 基于SAM模型的西装领设计尺寸测量方法[J/OL]. 现代纺织技术, 1-8[2024-08-30].
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更新日期/Last Update: 2024-08-30