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This category lists articles, technical information and scientific papers about the research into, and the development and applications of conductive textiles and nonwovens.
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Paper presenting a framework for interacting with external processes through the development of a utility for person-worn computing as an alternative to desktop and portable computers. Author: Steve Mann.
Technical paper describing the technological difficulties of integrating textile science, electronics and computer science into the new interdisciplinary branch of science designated as textronics. Authors: Krzisztof Gniotek and Izabela Krucinska. [PDF]
Technical paper addressing the emerging field of research that combines the strengths and capabilities of electronic and textile technologies, and illustrates the challenges imposed by their modeling and optimization methodology. Authors: Diana Marculescu and others. [PDF]
Technical paper describing the patterning of conductive textiles by numerically controlled sewing or weaving processes as a means of creating computationally active textiles. Authors: E.R. Post and others.
Technical paper describing the design and implementation issues involved in the development of electronic textile components, as well as the system architecture, connection techniques, communication alternatives, and experiences from the construction of a prototype wearable e-textile with multiple e-TAGs. Authors: David I. Lehn and others. [PDF]
Technical paper describing a potential physical layer for wearable computing, defined by the fabrication of transistors onto fibers and their integration into textile fabrics. Authors: Ozan Cakmakci and others. [PDF]
Description of the development, application and impact of a patented computing t-shirt for military uses, developed by the Georgia Tech University.
Technical paper providing an overview of material alternatives and properties available to designers of electronic textiles, and the advantages of incorporating electronic and interactive textiles in human clothing. Authors: André Norstebo. [PDF]
Technical paper examining the strengths and limitations of potential supporting technologies for the development of interactive electronic textiles. Authors: D. Meoli and T. May-Plumlee. [PDF]
Technical paper, presenting recent developments of incorporating disposable metallic surface electromyography electrodes (sEMG) into garments for the monitoring and study of muscle activity. Authors: A. Sipila and others. [PDF]
Introduction and resource of technical information to the field of wearable computing, including links to related sites.
Assignment outline about the manufacture, structure, properties and applications of Georgia Tech University's "Wearable Motherboard" fabrics for commercial and military sensing and computing clothing and textiles. Author: Jee Park.
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. [PDF]
Technical paper outlining various methods for constructing electronic textiles and threads, as well as traditional textile construction methods as sewing, embroidery and appliqué with various conductive and active materials to create interactive fabrics. Authors: Joanna Berzowska and Marguerite Bromley. [PDF]
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. [PDF]
Technical paper examining the strengths and limitations of potential supporting technologies for the development of interactive electronic textiles. Authors: D. Meoli and T. May-Plumlee. [PDF]
Technical paper addressing the emerging field of research that combines the strengths and capabilities of electronic and textile technologies, and illustrates the challenges imposed by their modeling and optimization methodology. Authors: Diana Marculescu and others. [PDF]
Technical paper, presenting recent developments of incorporating disposable metallic surface electromyography electrodes (sEMG) into garments for the monitoring and study of muscle activity. Authors: A. Sipila and others. [PDF]
Technical paper providing an overview of material alternatives and properties available to designers of electronic textiles, and the advantages of incorporating electronic and interactive textiles in human clothing. Authors: André Norstebo. [PDF]
Technical paper describing the patterning of conductive textiles by numerically controlled sewing or weaving processes as a means of creating computationally active textiles. Authors: E.R. Post and others.
Technical paper outlining various methods for constructing electronic textiles and threads, as well as traditional textile construction methods as sewing, embroidery and appliqué with various conductive and active materials to create interactive fabrics. Authors: Joanna Berzowska and Marguerite Bromley. [PDF]
Technical paper describing a potential physical layer for wearable computing, defined by the fabrication of transistors onto fibers and their integration into textile fabrics. Authors: Ozan Cakmakci and others. [PDF]
Introduction and resource of technical information to the field of wearable computing, including links to related sites.
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. [PDF]
Technical paper describing the technological difficulties of integrating textile science, electronics and computer science into the new interdisciplinary branch of science designated as textronics. Authors: Krzisztof Gniotek and Izabela Krucinska. [PDF]
Technical paper describing the design and implementation issues involved in the development of electronic textile components, as well as the system architecture, connection techniques, communication alternatives, and experiences from the construction of a prototype wearable e-textile with multiple e-TAGs. Authors: David I. Lehn and others. [PDF]
Assignment outline about the manufacture, structure, properties and applications of Georgia Tech University's "Wearable Motherboard" fabrics for commercial and military sensing and computing clothing and textiles. Author: Jee Park.
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. [PDF]
Paper presenting a framework for interacting with external processes through the development of a utility for person-worn computing as an alternative to desktop and portable computers. Author: Steve Mann.
Description of the development, application and impact of a patented computing t-shirt for military uses, developed by the Georgia Tech University.
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October 2, 2023 at 5:35:04 UTC
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