纺织学报 ›› 2018, Vol. 39 ›› Issue (12): 118-123.doi: 10.13475/j.fzxb.20171202006

• 管理与信息化 • 上一篇    下一篇

三维参数化技术在构建现代服装新形态中的应用

    

  1.  
  • 收稿日期:2017-12-11 修回日期:2018-08-09 出版日期:2018-12-15 发布日期:2018-12-17
  • 基金资助:

     

Design and application of three-dimensional parametric technology in construction of new forms of modern clothing

    

  • Received:2017-12-11 Revised:2018-08-09 Online:2018-12-15 Published:2018-12-17

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摘要:

为打破现有服装单调单一的片面结构,赋予现代服装更多的立体空间可能性,通过三维参数化技术可为服装新形态构建提供变化的逻辑结构,运用三维软件Rhino 结合Grasshopper 对服装整体造型和衣片三维立体结构进行参数调整,再根据曲线曲面造型的审美需求逐步做出微调。结果表明:在服装外轮廓的基础上,利用三维建模软件Rhino 建立各衣片面作为基础造型形态,符合人体的完美曲面曲率;运用控制板中“Diamonds”和“Triangles”可使各衣片面节奏韵律更加理性化,科技感十足;利用点干扰的方式完成服装上半身的网格结构及线干扰的方式完成下半身的网格结构,渲染过程中,通过加入白色的漫反射材质,可得到更加生动、逼真的服装造型。

关键词: 参数化设计, 三维技术, 三维建模, 现代服装设计

Abstract:

In order to break the monotonous single structure of the existing clothing and give the modern clothing more possibility of three-dimensional space, by the three-dimensional parametric technology, a changing logical structure for the new form of garment construction was constructed, and threedimensional modeling software Rhino in combination with Grasshopper was used to adjust the threedimensional structure of clothing and garment. According to the aesthetic needs of curve and surface modeling, adjustments were gradually made. The results show that on the basis of the outer garment outline, the three-dimensional modeling software Rhino is used to establish garment pieces as the basic modeling form, which conforms to the perfect curvature of the human body. The use of "Diamonds"and "Triangles" in the control board can make the rhythmic rhythm of each garment piece more rational and full of scientific and technological sense. The grid structure of the upper body of the garment is completed by means of point interference, and the grid structure of the lower body is completed by means of line interference. In the rendering process, by means of adding white diffuse reflection materials, more vivid and realistic fashion clothing modeling can be obtained.

Key words: parametric design, three-dimensional technology, three-dimensional modeling, modern fashion design

[1] Parameterization and parametric design of mannequins[J].CharlieC.L.Wang.Computer-Aided Design . 2004 (1)
[2] 戴欣伟. 基于Grasshopper的参数化设计在产品设计中的应用探索[J].设计, 2016, (11).
DAI Xinwei. Application of parametric design based on Grasshopper in product design[J]. Design, 2016, (11).
[3] 张金滨.服装形式美法则研究[J]. 现代装饰(理论).2013(12)
ZHANG Jinbin.Reserchon the law of formal beauty of clothing[J].Modern decoration (Theory).?2013(12)
周雪峰 代静. 当下建筑设计中的参数化设计[J]. 室内设计, 2009, (04).
ZHOU Xuefengi,DAI Jing. Parametric design in current architectural design[J].Interior Design, 2009, (04).
[4] 孙福野. 参数化设计理论渊源及应用逻辑[J].设计, 2017, (21).
SUN Fuye. The theoretical origin and application logic of parametric design[J]. Design, 2017, (21).
[5 ] 邓盼盼,常春. 基于精确匹配的概念映射关系规则研究[J].图书情报工作, 2013, (16).
DENG Panpan,CHANG Chuni. Research on relation rules of concept mapping based on exact matching[J]. Library and Information service, 2013, (16).
[6] 程罡编著. Grasshopper参数化建模技术[M].清华大学出版社, 2017
CHENG Gang.Grasshopper parametric modeling technologyM]. tsinghua university press, 2017
[7] 王银辉,修毅.数字化三维服装设计系统中空间曲线造型方法[J]. 北京服装学院学报(自然科学版). 2016(02)
WANG Yinhui,XIU Yi.Space curve modeling me thod in digital 3D garment design system
[8] 朱炜. 试析首饰参数化设计与3D打印技术的关系[J].科技创新与应用, 2017, (31).
ZHU Wei. Analysis of the relationship between parametric design of jewelry and 3D printing technology[J]. Innovation and application of science and technology, 2017, (31).
[9] 黄蔚欣,王津红,梁爽. 数字建筑设计与结构形态探索[J].西部人居环境学刊, 2014, (06).
HUANG Weixin,WANG Jinhong,LIANG Shuang.Digital architecture design and structural form exploration[J]. Journal of Human Settlements i n West China, 2014, (06).
[10] 李悦. 参数化技术在城市家具设计中的应用研究[J].包装工程, 2017, (14).
LI Yuei. Research on the application of parametric technology in urban furniture design[J]. Packaging Engineering, 2016, (11).
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