Results 1 - 4 of 4
Project Persons Year Tags
AVALON Prof. Dr. Thomas Fischer (AVALON) research, textile, hybrid, technology, shape memory alloy, sma,
Principle objective of the AVALON project is the cross-sectoral development of novel hybrid textile structures integrating multifunctional Shape Memory Alloys (SMAs) and the related processing techniques as well as design, simulation and organisational methodologies. They will enable the integration of such textile structures into novel high performance products in the fields of smart wearable systems and textile reinforcements for technical applications. The broader aim is to create new market perspectives in the textile sector by introducing emerging and highly promising non-textile technologies.
SFIT (CSEM, CORDIS, IST ) projects cluster, collaborations, MyHeart, BIOTEX, PROETEX, STELLA, OFSETH, CONTEXT, MERMOTH, smart fabrics, interactive textile, flexible wearable systems, smart textile, smart clothes, sensor, piezo-resistive yarns, optic fibers, colored multi layers, Research and Development, Intelligent Biomedical Clothing, Biomedical Clothing, European Commission, Wearable Healthcare System
The symbiosis of textiles with wearable computing, augmented reality, human machine interfaces, media and interface design and the collaboration between established electronics and textile industries currently lead to a totally new class of flexible, conformable informative and interactive wearable systems. The current market size for wearable computing and smart fabrics and interactive textiles (SFIT) is modest but presents a strong future outlook.
Studio subTela Barbara Layne (Hexagram Institute) institute, research, visual art, engineering, intelligent clothing, smart fabrics
Barbara Layne is the Director of Studio subTela at the Hexagram Institute where she works with a team of graduate students from Visual Arts and Engineering at Concordia University and a variety of international collaborators. The Studio is focused on the development of intelligent cloth structures for the creation of artistic, performative and functional textiles. Natural materials are woven in alongside microcomputers and sensors to create surfaces that are receptive and responsive to external stimuli. Controllable arrays of Light Emitting Diodes present changing patterns and texts through the structure of cloth. Wireless transmission systems have also been developed to support real time communication. In both wearable systems and site related installations, textiles are used to address the social dynamic of fabric and human interaction.
Tap Tap L.Bonanni, J.Lieberman, C.Vaucelle, O.Zuckerman 2005 wearable system, project, record, distribute, affectionate touch, emotional therapy, scarf, haptic devices, useful accessory, felt, haptic modules, record sensations, microcontroller circuit, metal snaps, touch memory, sex, sizing, height, shoe size, coloring, student, MIT Media Lab, interaction design
TapTap is a wearable haptic system that allows nurturing human touch to be recorded, broadcast and played back for emotional therapy. Haptic input/output modules in a convenient modular scarf provide affectionate touch that can be personalized. We present a working prototype informed by a pilot study.