This study offers a new perspective on clothing consumption by uncovering the systemic nature of the wardrobe. The research builds on systems theory and aims at drawing a map of the wardrobe as a system with particular structure and behaviour. By co-designing fictional 'smart wardrobe' services with experts and discussing these services with wardrobe users, we identify characteristics of wardrobe structure and behaviour that give input for a preliminary wardrobe map. Lastly, the wardrobe map provides a basis for discussing sustainable design approaches aimed at reducing clothing demand, in the context of growing clothing production volume and its associated environmental impacts.
Research through design allows creating a dialogue with the material. It uses making andreflection on action as a generator of knowledge. Our aim is to explore the opportunities and challenges of smart textiles. The Fablab is our set up, a place that allows us to combine the hackingscientific-, and design community. It stimulates collaboration and the knowledge exchange needed for the development of smart textile systems. A collaborative prototyping workshop for medical products combined two worlds. The textile world in Saxion aims at incorporating conductive materials into textile structures and functional- / 3D printing to create systems for applications such as flexible heating systems and wearable technology. We combined this with the world of Industrial Design at TU/e, focused on the design of intelligent products, systems and services by the research through design approach. The collaboration between these different disciplines accelerated the process by reducing the resistance to the new and skipped the frustration on failure. Article from the Saxion Research Centre for Design and Technology published in the book 'Smart and Interactive Textile ' (pages 112-117), for the 4th International Conference Smart Materials, Structures and Systems, Montecatini Terme, Tuscany, Italy, 10th-14th June 2012.
MULTIFILE
We describe here the design and implementation of the Fashion Tech Farm (FTF), which aims to drive sustainable innovation in garments and fashion. We describe our goals, design principles, and the implementation. The design principles are rooted in an understanding of the fashion system, open networks, and entrepreneurial thinking. After four years of work on the FTF, we review three projects to evaluate how far the work has achieved the main goals and how our design principles are developing.
MULTIFILE
Lymphedema is one of the most poorly understood, relatively underestimated and least researched complications of cancer, or its treatment. Lymphedema is a chronic condition that causes abnormal build up of fluid under the skin resulting in painful swelling, commonly in the arms and legs. Limpressive Compression Garments have designed and conceptualised an active and smart compression sleeve that integrates pioneering smart materials and sensor technology to be used to treat and evaluate lymphedema. The Limpressive garments can be used as a research tool while replacing existing compression sleeves and pneumatic compression apparatus. There is currently no product on the market that is integrating both the actuator and sensor technology to treat, let alone quantify lymphedema. It is thus imperative that the Limpressive Compression Garments team are allowed the opportunity through funding to investigate the feasibility of the technology and its integration into healthcare, the business structures and processes needed to enter and be successful in the marketplace and the value to both the consumer and to the organisations dedicated to developing a greater understanding of the disease. Limpressive will complete an extensive and detailed business plan and a complete product design by the end of the Take-off Phase. The business plan and complete product design will be complemented by a proof of function prototype.
