Technical paper presenting a detailed analysis of two techniques for adapting applications to the error prone electronic textile hardware substrate. Authors: Phillip Stanley-Marbell.
Description of the development, application and impact of a patented computing t-shirt for military uses, developed by the Georgia Tech University.
Technical article about the development of textile fabrics for display and illumination applications, through the incorporation of polymeric optical fibers into woven structures. From Autex Research Journal. Authors: A. Harlin, M. Makinen and A. Vuorvirta.
Technical paper, discussing wearable textiles which can read and record the vital signs and movements of a subject wearing the garments, the sensing function of which is based on piezo-resistive fabric sensors, carbon loaded rubber, and different conductive materials. From Autex Research Journal. Authors: Danilo De Rossi and others.
Technical paper presenting a description of the polymerization process used to realize strain sensors, the characterization of strain-sensing textile fabrics, and the thermal and mechanical transduction properties of strain sensors from electroactive polymeric materials. Authors: E.P. Scilingo and others.
Extensive technical paper on wearable textiles which are able to read and record the posture and movements of a subject, created through the incorporation of fabric strain sensors into the weave of the fabric. From Autex Research Journal. Authors: A. Mazzoldi and others.
Short article about intelligent fibers, and interactive or smart textile technologies for biomedical and military applications, and their future use in fashion and clothing. From Express Textile.
Thesis presenting the creative, technological and philosophical means and methodology by which artists and researchers are able to transform physical computing technology into sensual computing objects. Text abstract and extensive PDF files. Author: Margaret A. Orth.
Technical paper about the ongoing development of textile based products and garments able to monitor the physiological, emotional and sensorial reactions of humans. Authors: F. Axisa and others.
Short description of a project within the framework of the Soldier Warrior Systems Technologies, with the aim to investigate and develop the methodology and manufacturing processes for integration of electrical and optical conductive networks, sensors and electronic devices into clothing, webbing or other textile based materials worn by soldiers.
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