异形网点结构提花织物设计及其灰度仿真特性

doi:10.13475/j.fzxb.20220604801

摘要/Abstract

摘要：

为解决基于网点图像的色彩仿真提花织物网点形状局限于简单几何形问题,提出一种异形网点库设计方法。以排列角度、单位网点的大小、网点形状及其生成路径为设计要素,创建异形网点库并设计织造织物色卡和灰度仿真提花织物,同时设计相应的影光组织织物色卡和提花织物作为对比样。对织物色卡进行测色,以及对提花织物图像明度数据完成了分区统计。结果表明:异形网点织物较影光组织织物具有更稳定的灰度仿真性能;网点形状的饱满程度是调节异形网点提花织物灰度仿真效果的关键因素。异形网点库的设计与应用,在提升单层黑白提花织物灰度仿真稳定性的同时,增添了提花织物的设计趣味性。

关键词: 异形网点, 提花织物, 灰度仿真, 织物图像, 明度差, 分区比较

Abstract:

Objective Aiming at the situation that the dot shapes applied to the grayscale simulation jacquard fabric are limited to simple geometry, a special-shaped dot database design method was proposed, and the reproduction performances of the created special-shaped dot databases in the design of jacquard fabric were compared and investigated, attempting to provide a new method for promoting the color simulation of jacquard fabric design technology.

Method Four specially-shaped dot databases were designed by graphic generation technology. One group of fabric color cards showing grayscale from black to white gradient changed and four jacquard fabric samples representing an image were woven by applying the special-shape dot databases. All fabric samples were interwoven from one set of white warp and black weft yarns. The materials of warp and weft threads were both 23.3 dtex×2 silk, and the warp and weft filling density were both 1 100 threads/(10 cm). By comparatively analyzing the average lightness differences between the values of the fabric color cards and the original grayscale color, and between the value of the jacquard fabric samples and that of the original image, the grayscale simulation feature of the special-shape dot databases in the color simulation design of jacquard fabric were explained.

Results The mean value of the fabric color cards woven using the tree-shaped dot database and the original grayscale from the black to the white were calculated, respectively, and the difference between them was only 1, which indicated that the grayscale simulation performance of the tree-shaped dot database was excellent compared with the another six group of fabric color cards applying frequently-used shaded weave databases in total (Tab. 1). In order to further analyze the color simulation capability of the special-shape dot databases for rending complex image, six jacquard fabric samples were produced by using the four special-shape dot databases and two shaded weave databases, respectively. All figured jacquard fabric samples are scanned to become digital images, and then each digital jacquard fabric image was divided into nine pieces one by one (Fig. 4). The average lightness values of the nine pieces in one fabric image were calculated in sequence (Fig. 6), and the average lightness differences between the each fabric image pieces with that of the original image pieces were counted accordingly (Tab. 3). From the data of the six groups and their average lightness differences with the original image, it was shown that the four jacquard fabrics using special-shape dot databases had slight deviation value in grayscale simulation performance, but the average value difference between the two groups of jacquard fabrics with shaded weave databases was obvious. In addition, the heart-shape dot database had the best performance among the four special-shape dot databases, the ingot-shape was the second, the third was the tree-shape and the last was the leaf-shape. In view of the comparative analysis of the average lightness difference between the jacquard fabric images expressed by special-shape dot databases and by shaded weave databases, it was proved that the special-shaped dot databases have better and more stable grayscale simulation performances than that of the shaded weave databases that are widely used for the design of the color simulation jacquard fabrics in present.

Conclusion Special-shape dot structure fabrics have more stable grayscale simulation performance than the shaded weave structure fabrics, and the fullness of the dot shape is found to be the main factor affecting the grayscale simulation effect in the experiment. The design and application of the special-shaped dot database, on the one hand, is a breakthrough in the conventional dot shape and develops new design paths to the production of color simulation jacquard fabrics with graphic generation technology. The application research of special-shaped dot database in grayscale simulation of jacquard fabrics provides a new idea and design references for the development of creative jacquard fabrics.

Key words: special-shape dot, jacquard fabric, grayscale simulation, fabric image, lightness difference, partition comparison

中图分类号:

TS941.26

张爱丹, 郭珍妮. 异形网点结构提花织物设计及其灰度仿真特性[J]. 纺织学报, 2023, 44(09): 68-74.

ZHANG Aidan, GUO Zhenni. Jacquard fabric design of special-structure dot patterns and its grayscale simulation characteristics[J]. Journal of Textile Research, 2023, 44(09): 68-74.

图/表 9

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参考文献 11

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织物类型	结构类别	明度均值
织物类型	结构类别	未加强	经向加强	纬向加强
异形网点	树形网点	51.00	/	/
影光组织	16枚3飞	/	55.89	49.24
	16枚5飞	/	54.67	45.18
	16枚7飞	/	56.04	42.20

织物类型	结构类别	P值
织物类型	结构类别	未加强	经向加强	纬向加强
异形网点	树形网点	0.87	/	/
影光组织	16枚3飞	/	0.34	0.90
	16枚5飞	/	0.45	0.44
	16枚7飞	/	0.33	0.22

区域编号	异形网点				16枚5飞
区域编号	树形	叶子	心形	元宝	纬向	经向
1	22.66	22.31	15.35	19.01	33.6	15.35
2	36.94	35.45	28.58	33.97	46.08	28.13
3	0.69	2.94	6.27	0.25	7.89	10.68
4	5.55	7.62	4.03	6.52	16.69	2.24
5	29.06	28.01	20.16	24.70	40.24	18.57
6	1.5	0.02	7.53	0.85	12.05	13.15
7	13.27	15.55	4.86	13.01	26.42	2.24
8	10.24	12.96	2.76	12.48	27.96	2.30
9	0.72	0.99	7.43	0.80	11.37	11.41
均值	13.40	13.90	10.80	12.40	24.70	11.60

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