Zi-qian Bai, Jeanne Tan, Clare Johnston and Xiao-ming Tao
The colors of traditional interior textiles cannot be changed. With the development of hi-tech textiles, interior textiles and furnishings with changeable colors are now possible…
Abstract
The colors of traditional interior textiles cannot be changed. With the development of hi-tech textiles, interior textiles and furnishings with changeable colors are now possible with the integration of optical fibers. In this article, a study on the design of optical fiber integrated photonic interior furnishings is presented. First, the applications of polymeric optical fibers (POFs) in textiles are reviewed. It is observed that although there have been a wide variety in applications of POFs in textiles, research on the application of POFs in interior furnishing is rarely reported. The gap between technology and design handicaps the usability of photonic products. In order to design user-friendly photonic soft furnishings, a new design method is explored. Both technical and design aspects are considered in the development of photonic soft furnishings. A prototype of photonic fabrics and soft furnishings is successfully created. A usability test is undertaken to evaluate the performance of the prototype. The result of the usability test reveals that most of the subjects are satisfied with the overall performance of the prototype. They believe that photonic interior furnishings with changeable colors can enhance the environment. These usability test results are fed back to the design framework, and can provide a good source of reference for the improvement of photonic soft furnishing in the future.
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Polymeric optical fiber fabrics (POFFs) have been used in a wide range of applications, from smart clothing to medical products; therefore, it is interesting to note that there is…
Abstract
Polymeric optical fiber fabrics (POFFs) have been used in a wide range of applications, from smart clothing to medical products; therefore, it is interesting to note that there is a gap in the literature which explores the use of POFFs within the context of interior textiles. This research explores the use of illuminative interior textile surfaces as a multifunctional media that can enhance the interior environment via changes in colors, luminescence and surface design, and also act as a power-efficient light source for illumination. The development of POFFs involves several techniques, such as weaving, laser engraving, and integration of electronics. In order to obtain aesthetically pleasing surface designs and textures, and achieve favorable tactile quality, different materials are combined together. Surface printing and embroidery technologies are also adopted to enhance the surface pattern. A collection of life-sized photonic interior prototypes is created. The light sources of the prototypes are light emitting diodes (LEDs), which are considered energy saving and eco-friendly.
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Zi-qian Bai, Jeanne Tan, Clare Frances Johnston and Xiao-Ming Tao
The purpose of this paper is to investigate how electronic components can be utilized and integrated into polymeric optical fibre (POF) textiles to refine the design aesthetic…
Abstract
Purpose
The purpose of this paper is to investigate how electronic components can be utilized and integrated into polymeric optical fibre (POF) textiles to refine the design aesthetic, tactile quality and initiate the interaction of textiles with the users; and to study the design process of interactive products by using a novel design process model.
Design/methodology/approach
Fashion and textile design methods, textile technology are used in combination with modern technologies such as laser engraving, sensing, short-distance communication technology, throughout the entire process of development of interactive photonics creations.
Findings
The results of evaluation indicate that the engineered prototypes can enhance the interactive function of interior furnishing. The usability of interactive POF cushions is optimized by innovative design methods considering both design and technology.
Originality/value
This research explores to combine knowledge from different disciplines, including textile, electronics, sensor and laser to create interactive soft furnishings. The inter-disciplinary research provides a new perspective on how POF fabric can be utilized as a new media to change the way people interact with their living surroundings. The interior soft furnishings are no longer unresponsive to people, but can react to them, adapt to their behaviors, change color according to their preferences and therefore merge into our daily life. The developed prototypes reshape interior soft furnishing, and therefore have both theoretical and practical significance.