纺织学报 ›› 2020, Vol. 41 ›› Issue (08): 95-100.doi: 10.13475/j.fzxb.20191003306

• 服装工程 • 上一篇    下一篇

服装设计知识图谱中的服装装饰工艺分类模型

杨娟1,2, 张远鹏3,4()   

  1. 1.苏州大学 纺织与服装工程学院, 江苏 苏州 215123
    2.南通大学 纺织服装学院, 江苏 南通 226001
    3.南通大学 智能信息技术研究中心, 江苏 南通 226001
    4.香港理工大学 电子计算学系, 香港 999077
  • 收稿日期:2019-10-16 修回日期:2020-04-27 出版日期:2020-08-15 发布日期:2020-08-21
  • 通讯作者: 张远鹏
  • 作者简介:杨娟(1983—),女,讲师,博士生。主要研究方向为服装知识图谱。
  • 基金资助:
    国家自然科学基金资助项目(81701793);江苏省哲学社会科学基金资助项目(18YSC009)

Garment ornamenting craft classification model for knowledge graph on clothing design

YANG Juan1,2, ZHANG Yuanpeng3,4()   

  1. 1. College of Textile and Clothing Engineering, Soochow University, Suzhou, Jiangsu 215123, China
    2. School of Textile and Clothing, Nantong University, Nantong, Jiangsu 226001, China
    3. Research Institute of Smart Information Technology, Nantong University, Nantong, Jiangsu 226001, China
    4. Departing of Computing, The Hong Kong Polytechnic University, Hong Kong 999077, China
  • Received:2019-10-16 Revised:2020-04-27 Online:2020-08-15 Published:2020-08-21
  • Contact: ZHANG Yuanpeng

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摘要:

为解决服装装饰工艺类别判定中噪声视角或弱相关视角带来的负影响问题,采用具备视角约减功能的多视角分类模型对噪声视角或弱相关视角进行动态过滤。首先基于1-阶TSK模糊系统,在其目标优化函数中引入视角间分类误差一致性约束,实现多视角协同学习;然后通过变体信息熵学习各视角的权重,并在权重学习过程中制定视角约减规则,自动剔除噪声视角或弱相关视角;最后通过服装装饰工艺类别分类实验对所构建模型的分类精度进行验证。结果表明:相比视角约减之前,所提出的多视角分类模型的测试精度提高了2.68%,可有效地过滤噪声视角或弱相关视角,降低其对分类精度的影响。

关键词: 服装装饰工艺, 模糊系统, 多视角数据, 视角约减, 协同学习, 服装设计资源, 知识图谱

Abstract:

In order to eliminate the negative influences caused by noisy views or weakly relevant views in the garment ornamenting craft classification tasks, an automatic view-reduction multi-view classification model was used to filter noisy views or weakly relevant views in this research. Based on the 1-order TSK fuzzy system, an error constraint item was introduced to be the objective function for collaborative learning. Then, a variant entropy item was designed to learn the weight of each view, and a reduction principle was designed to filter noisy views or weakly relevant views during collaborative learning. The proposed model was tested as the final step on the clothing ornamenting craft classification tasks. Experimental results demonstrate that the proposed classification model can reduce noisy views or weakly relevant views effectively such that the negative influences generated by them can be avoided. Compared with the model without view-reduction, the proposed classification model achieves a 2.68% improvement in terms of data accuracy.

Key words: garment ornamenting craft, fuzzy system, multi-view data, view-reduction, collaborative learning, clothing design resource, knowledge graph

中图分类号: 

  • TP311.11

表1

服装装饰工艺文本资源部分站点"

站名 站点网址
WGSN https://www.wgsnchina.cn/cs/
POP服装趋势 https://www.pop-fashion.com
WOW TREND http://www.wow-trend.com/
穿针引线 http://www.eeff.net/
CFW服装设计 https://art.cfw.cn/
YOKA时尚网 http://www.yoka.com/dna/
vogue http://www.vogue.com.cn/
女装品牌网 http://lady.ef43.com.cn/
中国童装品牌网 http://www.61kids.com.cn/
肉丁网 https://www.rouding.com
华衣网 http://www.ef360.com/
编织人生 http://www.bianzhirensheng.com/
T100趋势 http://n.t100.cn/Product/index.aspx
蝶讯网 http://www.diexun.com/
印染在线 http://yr.e-dyer.com/
布流行 http://www.8liuxing.com/xinshou/
中国刺绣网 http://www.rocky168.com/
中国服饰新闻网
倾城旗袍		 http://www.cfw.com.cn/articlecat/id/79
https://www.hercity.com/
…… ……

图1

服装装饰工艺文本资源的预处理过程"

表2

训练文本示例"

类别 文本
刺绣 刺绣工艺从刺绣方式上,可以分为3类:手工刺绣、缝纫机绣和电子控制机绣。这3种方法中,由于手工刺绣针法灵活多变,装饰效果好,适宜在各类服饰及织物上绣制……
印染 在中原地区,印花技术的再度复兴是从缬开始的,缬有绞缬、葛缬和夹缬。绞缬、葛缬实际上就是一种仿染印花的织物……
编结 编结,就是用线、绳编织出各种花样的网袋或饰物,古代俗称“绛子”或“络子”。我国古代的竹、柳、草、棕、藤编艺术更是源远流长,品种多样……
手绘 中国上古时期已在车舆、衣冠上绘画,作为某种标识。后来借鉴刺绣衣裳的美化效果,将细致的绣花版样描画在服装上,或将名人画稿描摹在服装上,成为手绘装饰服装……
镶嵌 服装制作工艺中的“镶拼”,指将2块或2块以上的布片连缀成一片,主要是指不同颜色、质地或不同纹理的布片在衣身、衣缝沿边等处以块面状的形式拼接……

表3

对比分类模型的训练精度"

对比分类
模型		 视角约减前
训练精度
(平均值±标准差)		 约减视
角数平
均值		 视角约减后
训练精度
(平均值±标准差)
SVM 0.894 1±0.001 4 0.899 7±0.003 6
C4.5 0.863 4±0.009 8 0.874 5±0.007 4
1-TSK-FS 0.865 0±0.003 2 0.869 8±0.004 5
MV-TSK-FS 0.898 7±0.008 4 0.914 5±0.002 7
VR-MV-CM
(δm=0)		 0.902 1±0.001 7 0.925 4±0.002 2
VR-MV-CM
(δm≠0)		 0.945 3±0.002 0 12.1

表4

对比分类模型的测试精度"

对比分类
模型		 视角约减前
测试精度
(平均值±标准差)		 约减视
角数平
均值		 视角约减后
测试精度
(平均值±标准差)
SVM 0.831 3±0.002 4 0.837 9±0.002 1
C4.5 0.809 7±0.010 5 0.811 1±0.009 8
1-TSK-FS 0.841 0±0.001 5 0.848 6±0.001 7
MV-TSK-FS 0.853 7±0.007 6 0.867 1±0.002 9
VR-MV-CM
(δm=0)		 0.852 1±0.003 4 0.877 8±0.002 0
VR-MV-CM
(δm0)		 0.878 9±0.001 6 11.4
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