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Multicoloured Jacquard artworks reproduction with C, M, Y, and K channels modification to improve weave colour accuracy

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posted on 2024-01-10, 09:21 authored by Ken Ri KimKen Ri Kim, Lei Zeng, John Xin

Multi-coloured Jacquard artwork reproduction has been restricted by the modern setting of weaving machinery. To resolve the current limitations, innovative weaving applications have been introduced. The subtractive CMYK system used for colour printing has been employed for multi weave colour reproduction as a wide scope of a weave colour creation is possible by utilizing a small number of weft yarn colours. In use of cyan [C], magenta [M] and yellow [Y] coloured yarns, a range of CMYK secondary colours (red [R], green [G] and blue [B]) production is feasible by juxtaposing a pair of the three yarn colours. In addition, controlling chroma levels of the primary colours is viable by mixing with a black yarn. However, there are variations between CMYK colour mixing and optical yarn colour mixing due to the material differences. Therefore, modifications of the [C], [M], and [Y] colour channels are required to reproduce tertiary colours such as a black colour. This is because opaque and non-blendable yarns are used to create weave colours and therefore, exhibited yarn colours are all perceived together. In use of image processing tools offered by Adobe Photoshop, a pair of the [C], [M], [Y], and [K] colour channels are merged to individually generate the primary ([C], [M], [Y]) and secondary ([R], [G] and [B]) colour channels. In the process, a pair of C, M, Y and K channels is combined based on mathematical functions. As a result, new six colour channels ([C], [M], [Y], [R], [G], and [B]) are created to improve weave colour reproduction accuracy. This study introduces details of the colours segmentation processes and weaving experiment results that examines the significance of the newly developed the colour channels for multi-coloured artwork reproduction.

Funding

Novel Digital Weaving Application Development to Innovate the current Woven Textile Coloration by developing an Optical Yarn Colour Mixing System

Arts and Humanities Research Council

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Loughborough University

Hong Kong Polytechnic University

History

School

  • Design and Creative Arts

Department

  • Creative Arts

Published in

Journal of Materials and Polymer Science

Volume

3

Issue

4

Pages

1 - 5

Publisher

Uniscience Publishers

Version

  • VoR (Version of Record)

Rights holder

© Ken Ri Kim

Publisher statement

This is an Open Access Article. It is published by Uniscience Publishers under the Creative Commons Attribution 4.0 International Licence (CC BY). Full details of this licence are available at: https://creativecommons.org/licenses/by/4.0/

Acceptance date

2023-07-12

Publication date

2023-10-11

Copyright date

2023

ISSN

2832-9384

Language

  • en

Depositor

Dr Ken Ri Kim. Deposit date: 11 September 2023

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