Relevant bibliographies by topics / Smart textile

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Smart textile'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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Journal articles on the topic "Smart textile"

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DIAS, Ana, Luís ALMEIDA, Mirela BLAGA, et al. "GUIDE FOR SMART PRACTICES TO SUPPORT INNOVATION IN SMART TEXTILES." TEXTEH Proceedings 2019 (November 5, 2019): 28–31. http://dx.doi.org/10.35530/tt.2019.07.

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Smart Textiles for STEM training (Science, Technology, Engineering and Math’s).is an Erasmus+ project aiming to bridge Textile Companies with the Education sector via Smart Textiles Innovation and Training. Industries have been surveyed to analyze the needs for new jobs and skills in Smart textiles, contributing to improve the links with VET Schools training and closing the gap between industry and education. During the project a number of smart textiles examples and prototypes are worked to be transferred to Schools and used by students and teachers, aiming to foster STEM training. This paper
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Lewis, Erin. "Between yarns and electrons: A method for designing electromagnetic expressions in woven smart textiles." Artifact 9, no. 1 (2022): 23.1–23.25. http://dx.doi.org/10.1386/art_00023_1.

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The design of woven smart textiles presents a discrepancy of scale where the designer works at the level of structural textile design while facets of the material express at scales beyond one’s senses. Without appropriate methods to address these unknown (or hidden) material dimensions, certain expressional domains of the textile are closed off from textile design possibilities. The aim of the research has been to narrow the gap that presents when one designs simultaneously at the scale of textile structure and electron flow in yarns. It does this by detailing a method for sensing, visualizing
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Wang, Yang. "Research on Flexible Capacitive Sensors for Smart Textiles." Journal of Physics: Conference Series 2181, no. 1 (2022): 012038. http://dx.doi.org/10.1088/1742-6596/2181/1/012038.

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Abstract Smart textiles are a new era of smart textiles that not only have traditional textile functions, but also have information collection, feedback, and multiple intelligent interaction functions with users. As a manifestation of the combination of art and technology in the textile field, smart textiles are of great significance to traditional textiles, clothing, home textiles, and wearable devices. From the perspectives of the background, technology, and development prospects of smart textiles, this article systematically analyses the application technology of smart textiles in practice.
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KU, Savitha, Kavitha AL, and Revathi M. "AN OVERVIEW OF ELECTRICALLY CONDUCTING TEXTILES." Journal of Advanced Scientific Research 14, no. 03 (2023): 01–14. http://dx.doi.org/10.55218/jasr.2023140302.

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Textiles are having evolution from being normal protective clothing to smart and technical textiles. Electrically conducting fabrics forms the backbone of being smart textiles. The smart textile combines electronics with textile structures, referred to as “textronics”. One major challenge to the success of such wearable smart textile resides in the development of lightweight and flexible components, and fibrous structures with high electrical conductivity able to withstand the stresses associated with wearing and caring for the textile. Therefore, flexible, deformable, stretchable, and durable
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Thahani, Z. Rasmin. "Smart Textiles- On Review." International Journal of Applied and Structural Mechanics, no. 11 (September 2, 2021): 1–11. http://dx.doi.org/10.55529/ijasm11.1.11.

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Smart Textiles Are Intelligent Textile Structure That Can Sense And React To Environmental Stimuli, Which May Be Mechanical, Thermal, Chemical, Biological, And Magnetic Among Others. Research And Development Towards Wearable Textile-Based Personal Systems Allowing E.G. Health Monitoring, Protection & Safety, And Healthy Lifestyle Gained Strong Interest During The Last 10 Years. The Functionalities Include Aesthetic Appeal, Comfort, Textile Soft Display, Smart Controlled Fabric, Fantasy Design With Color Changing, Wound Monitoring, Smart Wetting Properties And Protection Against Extreme Var
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Mohd Nawawi, MM, Khairul Azami Sidek, Amelia Wong Azman, and Fazli Mohd Nasir Nashrul. "Reliability of Electrocardiogram Signals during Feature Extraction Stage for Smart Textile Shirts." Journal of Physics: Conference Series 2071, no. 1 (2021): 012043. http://dx.doi.org/10.1088/1742-6596/2071/1/012043.

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Abstract Wearable smart textiles have garnered significant interest due to their high flexibility, reusability, convenience and ability to work on home-based, real-life and real-time monitoring. Wearable smart textiles are shirts with inbuilt textile sensors that enable electrocardiogram (ECG) data to be collected more comfortably and smoothly outside the laboratory and clinical environment for a continuous and longer duration for ECG data collection. However, the existing ECG wearable smart textile main challenge is maintaining the quality and reliability of data across multiple wearable smar
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Leśnikowski, Jacek. "Textile Connector for Smart Textile Applications." Fibres & Textiles in Eastern Europe 32, no. 2 (2024): 33–40. http://dx.doi.org/10.2478/ftee-2024-0013.

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Abstract Textile signal lines are some of the more significant parts of an electronic system incorporated in modern smart garments. These applications often need to make lines that are disconnectable. The article presents the construction of two textile connectors that can connect direct current textile electro-conductive lines. These connectors are mostly made of textile materials and are an alternative to conventional connectors or connectors using snap fasteners. The article presents basic research on the electrical properties of the connectors proposed. The present research examined the in
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Bosowski, Patrycja, Christian Husemann, Till Quadflieg, Stefan Jockenhövel, and Thomas Gries. "Classified Catalogue for Textile Based Sensors." Advances in Science and Technology 80 (September 2012): 142–51. http://dx.doi.org/10.4028/www.scientific.net/ast.80.142.

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Technical textiles are used primarily for their technical functionality in many different industries. For monitoring the functionality of textiles it is possible to integrate sensors into the textile. Since textiles are made of fibres, yarns, two-or three dimensional structures the sensor systems should accordingly be designed as a part of them. Smart textiles are concerned with textile based sensors integrated mechanically and structurally to a textile. The state of the art in developing textile based sensors extends from sensor fibres to over coated yarns and textiles but without using stand
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Moya-Jiménez, Roberto, Elizabeth Morales-Urrutia, Andrea Lara-Saltos, et al. "Materials in Technological-Wearable Devices for Health: Review and Perspective." Data and Metadata 4 (February 12, 2025): 200. https://doi.org/10.56294/dm2025200.

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The convergence between the textile industry and technology has revolutionized material design, enabling the development of smart textiles for wearable technological devices, especially in the healthcare sector. These devices, designed to continuously monitor physiological parameters and provide personalized support, have found in smart textiles an essential solution thanks to their properties of flexibility, comfort and adaptability, key to their prolonged use. This article examines the evolution of smart textiles from passive textiles, capable of responding to environmental stimuli, to ultra
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Cabral, Isabel, and António Pedro Souto. "Dynamic Qualities of Smart Textiles: Study of Stimuli Magnitude with Chromic Pigments." Solid State Phenomena 333 (June 10, 2022): 97–106. http://dx.doi.org/10.4028/p-se7xco.

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Smart textile behaviour encompasses changes over time, which are triggered upon a sensed stimulus. With a focus on dynamic qualities, this research sought to study how gradual and reversible transitions of smart textiles can be influenced by the activation variable – stimuli magnitude. Taking into account an analysis of different external stimuli for the same property change, the experimental work was conducted with Colour Change Materials, namely textiles screen printed with thermo, photo and hydrochromic pigments. The results attained demonstrate how stimuli magnitude can affect textile temp
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Dissertations / Theses on the topic "Smart textile"

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Worbin, Linda. "Dynamic textile patterns : using Smart textile." Thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2004. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-20250.

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It is the possibilities to create dynamic textile patterns in Smart Textiles that isin focus in this report. The result will be presented in form of different materialand pattern samples. The samples show both different technical solutions andinteractions needed to develop a dynamic textile pattern.My intention with this work is to enlarge the use of a decoration, as somethingmore than a static extra value. We do have a need for beautiful things in oursurrounding and I want to explore how dynamic patterns could give decorationan extended use. Where new kinds of values can be included, inte
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Berglin, Lena. "Interactive Textile Structures : Creating Multifunctional Textiles based on Smart Materials." Doctoral thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-3490.

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Textiles of today are materials with applications in almost all our activities. We wear clothes all the time and we are surrounded with textiles in almost all our environments. The integration of multifunctional values in such a common material has become a special area of interest in recent years. Smart Textile represents the next generation of textiles anticipated for use in several fashion, furnishing and technical textile applications. The term smart is used to refer to materials that sense and respond in a pre-defined manner to environmental stimuli. The degree of smartness varies and it
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Sjöblom, Therese, and Elin Davidsson. "Textila ledningsbanor : En jämförande studie av konduktiva material för textila applikationer." Thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-228.

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Ledningsbanor syftar till att föra ström eller digitala signaler mellan elektroniska komponenter. Traditionellt brukar ledare av solid metall användas, då metall har låg resistans och lämpar sig bra som strömledare. I denna studie utforskas möjlig-heten för olika material att fungera som textila ledningsbanor. Textila ledningsba-nor behövs bland annat i medicinska plagg med sensorer. En ledningsbana som ska vara i ett plagg måste både vara tvättbar och flexibel. I denna studie har tre konduktiva garner testats; Bekinox VN 12/2*275 /175S, Shi-eldex 235/34 och Highflex 3981 7*1 Silver. Ett texti
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Rizvi, Syed Hussain Raza. "Design of Bioinspired Conductive Smart Textile." Thesis, University of North Texas, 2017. https://digital.library.unt.edu/ark:/67531/metadc1062837/.

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Electrically conductive fabrics are one of the major components of smart textile that attracts a lot of attention by the energy, medical, sports and military industry. The principal contributors to the conductivity of the smart textiles are the intrinsic properties of the fiber, functionalization by the addition of conductive particles and the architecture of fibers. In this study, intrinsic properties of non-woven carbon fabric derived from a novel linear lignin, poly-(caffeyl alcohol) (PCFA) discovered in the seeds of the vanilla orchid (Vanilla planifolia) was investigated. In contrast to a
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Lund, Anja. "Melt spun piezoelectric textile fibres : an experimental study." Doctoral thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-3682.

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The manufacturing and characterisation of piezoelectric textile fibres are described in this thesis. A piezoelectric material is one that generates an electric voltage when deformed, a property which exists in a number of materials. The polymer with the strongest known piezoelectric effect today is poly(vinylidene fluoride) (PVDF), however it must be processed under certain conditions to become piezoelectric. This study shows that piezoelectric bicomponent PVDF-based fibres can be produced by melt spinning, which is a common and relatively simple fibre spinning method. The melt spinning proces
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Worbin, Linda. "Designing dynamic textile patterns." Doctoral thesis, Högskolan i Borås, Institutionen Textilhögskolan, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-3550.

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Designing Dynamic Textile Patterns Progress in chemistry, fibres and polymers technology provides textile designers with new expressive materials, making it possible to design dynamic textile patterns, where several different expressions are inherent in the same textile, textiles that, for example, could alternate between a striped and checkered pattern. Textiles are traditionally designed and produced to keep a given, static expression during their life cycle; a striped pattern is supposed to keep its stripes. In the same way textile designers are trained to design for static expressions, whe
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Possanzini, Luca <1993&gt. "Smart Textile Sensors for Healthcare Monitoring." Doctoral thesis, Alma Mater Studiorum - Università di Bologna, 2022. http://amsdottorato.unibo.it/10302/1/tesiPhD_LP.pdf.

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Wearable electronic textiles are an emerging research field playing a pivotal role among several different technological areas such as sensing, communication, clothing, health monitoring, information technology, and microsystems. The possibility to realise a fully-textile platform, endowed with various sensors directly realised with textile fibres and fabric, represents a new challenge for the entire research community. Among several high-performing materials, the intrinsically conductive poly(3,4-ethylenedioxythiophene) (PEDOT), doped with poly(styrenesulfonic acid) (PSS), or PEDOT:PSS, is
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Backe, Carin. "Enhancing textile electrode performance : Regulating moisture management through textile structure." Thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-12389.

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The medical field has been a part of the smart textile area for quite some time. With time come technological advancement and the two fields converge on more and more areas. One such area is that of using textile electrodes, textrodes, for measuring bioelectrical activity, such as heart rate for ECG analysis. There are many components that make for a successful textile electrode and though many studies have been made in the subject there are several aspects that still are difficult. By using textile electrodes the problem with skin irritation from electrolyte gels, commonly used for convention
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Bashir, Tariq. "Conjugated Polymer-based Conductive Fibers for Smart Textile Applications." Doctoral thesis, Högskolan i Borås, Institutionen Ingenjörshögskolan, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-3649.

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Electrically conductive or electro-active fibers are the key components of smart and interactive textiles, which could be used in medical, sports, energy, and military applications in the near future. The functionalization of high-performance textile yarns/fibers with conjugated polymers can produce conductive fibers with better electro-mechanical properties, which is difficult with commonly used spinning techniques. In this thesis work, textile-based conductive yarns/fibers were prepared by coating viscose and polyester (PET) yarns with the conjugated polymer PEDOT. For coating purposes, an e
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Kooroshnia, Marjan. "Creating diverse colour-changing effects on textiles." Licentiate thesis, Högskolan i Borås, Akademin för textil, teknik och ekonomi, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:hb:diva-3722.

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With the technological progress of materials science, the palette of colours with which to print on textiles has expanded beyond those with previously known properties and expressions to a new generation, with more advanced functionality and expressive properties. This new range of colours is characterised by their ability when printed on textiles to change colour in relation to external factors and internal programmes; for example, leuco dye-based thermochromic inks generally change colour in response to temperature fluctuations. This research explores the design properties and potentials of
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Books on the topic "Smart textile"

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England), Textile Institute (Manchester, ed. Smart textile coatings and laminates. CRC Press, 2010.

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Xiaoming, Tao, and Textile Institute (Manchester England), eds. Smart fibres, fabrics and clothing. CRC Press, 2001.

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McCann, J., and D. Bryson. Smart clothes and wearable technology. Woodhead Publishing, 2009.

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Xiaoming, Tao, and Textile Institute, eds. Smart fibres, fabrics and clothing: Fundamentals and applications. Woodhead, 2001.

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Aguilar, María Rosa, and Julio San Román. Smart polymers and their applications. Woodhead Publishing, is an imprint of Elsevier, 2014.

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International Conference on "Smart Materials, Structures, and Systems" (4th 2012 Terme, Italy). Smart and interactive textiles: Selected, peer reviewed papers from the symposium D "Smart and interactive textiles" of CIMTEC 2012-4th international conference "Smart materials, structures and systems", held in Montecatini Terme, Italy, June 10-14, 2012. Trans Tech Publications Ltd, 2013.

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Mattila, H. R. Intelligent textiles and clothing. CRC Press, 2006.

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Hu, Jinlian. Shape memory polymers and textiles. Woodhead in association with The Textile Institute, 2007.

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Symposium Q on "Advanced Structural and Functional Materials for Protection" (2007 Singapore). Advanced structural and functional materials for protection. Trans Tech Publications, 2008.

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Symposium T on Advanced Structural and Functional Materials for Protection (2011 Singapore). Advanced structural and functional materials for protection: Selected, peer reviewed papers from the Symposium T on Advanced Structural and Functional Materials for Protection, International Conference on Materials for Advanced Technologies (ICMAT2011), International Convention & Exhibition Centre, June 26-July 1, 2011, Singapore. Trans Tech, 2012.

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Book chapters on the topic "Smart textile"

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Mehmann, Andreas. "Textile Antennas." In Smart Textiles. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50124-6_7.

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Paradiso, Rita, Nicola Taccini, and Giannicola Loriga. "Textile Sensing and e-Textiles (Smart Textiles)." In The Engineering Handbook of Smart Technology for Aging, Disability, and Independence. John Wiley & Sons, Inc., 2008. http://dx.doi.org/10.1002/9780470379424.ch36.

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Paradiso, Rita, Gianluca De Toma, and Carlo Mancuso. "Smart Textile Suit." In Seamless Healthcare Monitoring. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-69362-0_9.

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Toprakci, Hatice A. K., and Tushar K. Ghosh. "Textile Sensors." In Handbook of Smart Textiles. Springer Singapore, 2015. http://dx.doi.org/10.1007/978-981-4451-45-1_37.

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Toprakci, Hatice A. K., and Tushar K. Ghosh. "Textile Sensors." In Handbook of Smart Textiles. Springer Singapore, 2015. http://dx.doi.org/10.1007/978-981-4451-68-0_37-1.

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Cheng, Jingyuan, Bo Zhou, Paul Lukowicz, et al. "Textile Building Blocks: Toward Simple, Modularized, and Standardized Smart Textile." In Smart Textiles. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50124-6_14.

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Zhou, Bo, and Paul Lukowicz. "Textile Pressure Force Mapping." In Smart Textiles. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50124-6_3.

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Gokarneshan, N., D. Anitha Rachel, V. Rajendran, B. Lavanya, and Arundhathi Ghoshal. "Smart Textile Wound Dressings." In Emerging Research Trends in Medical Textiles. Springer Singapore, 2015. http://dx.doi.org/10.1007/978-981-287-508-2_4.

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Meinander, Harriet. "Haptic Sensing in Intelligent Textile Development." In Smart Textiles. Trans Tech Publications Ltd., 2008. http://dx.doi.org/10.4028/3-908158-17-6.123.

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Peiris, Roshan Lalintha. "Integrated Non-light-Emissive Animatable Textile Displays." In Smart Textiles. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50124-6_5.

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Conference papers on the topic "Smart textile"

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Li, Jing-Jing, Li-Min Shi, and Hui Zhang. "A Review on Smart Wearable Devices for Visually Impaired People." In 17th Textile Bioengineering and Informatics Symposium. Textile Bioengineering and Informatics Society Limited (TBIS), 2024. https://doi.org/10.52202/076989-0001.

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Wu, Qing-Man, Chen Zhang, and Su Xu. "Expanding the Boundaries of Smart Apparel: Exploring Physical, Psychological, and Social Extensions." In 17th Textile Bioengineering and Informatics Symposium. Textile Bioengineering and Informatics Society Limited (TBIS), 2024. https://doi.org/10.52202/076989-0004.

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Wang, Long-Hao. "Interpreting the Application of Smart Wearable Interaction Language from the Perspective of Fashion Design." In 16th Textile Bioengineering and Informatics Symposium. Textile Bioengineering and Informatics Society Limited (TBIS), 2023. https://doi.org/10.52202/070821-0007.

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Adams, Basel, Christian Dils, Titus Kühne, and Lucie Kretzler. "AI-Enhanced Smart Textile System for the Monitoring of Cardiovascular Insufficiency." In 2024 International Conference on the Challenges, Opportunities, Innovations and Applications in Electronic Textiles (E-Textiles). IEEE, 2024. https://doi.org/10.23919/e-textiles63767.2024.10914344.

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M, Jothi, V. Prasanna Srinivasan, K. Balachander, Pramod Pandey, P. Sathyanathan, and S. Murugan. "Sustainable Textile Defect Management Using IoT and SVM-Based Smart Inspection." In 2024 1st International Conference on Sustainability and Technological Advancements in Engineering Domain (SUSTAINED). IEEE, 2024. https://doi.org/10.1109/sustained63638.2024.11073942.

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Kumar, Alamanda Kranthi, Bandi Alekhya, Swathi Yarajarla, Maddala Kesav, Jasti Jaya Rama Krishna Shabareesh, and Ch Venkata Sai Revanth. "Design Of Wearable Textile Based Compact Antenna." In 2024 OPJU International Technology Conference (OTCON) on Smart Computing for Innovation and Advancement in Industry 4.0. IEEE, 2024. http://dx.doi.org/10.1109/otcon60325.2024.10688079.

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Baluprithviraj, K. N., T. Kalavathi Devi, M. Madhan Mohan, B. V. Dharuhn, C. Madhusuthan, and R. Jaidharun. "Automatic Calendering Roll Cleaning Machine in Textile Industry using IoT." In 2024 5th International Conference on Smart Electronics and Communication (ICOSEC). IEEE, 2024. http://dx.doi.org/10.1109/icosec61587.2024.10722657.

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Radulescu, Ionrazvan, Carmen Ghituleasa, Emilia Visileanu, et al. "DEDICATED E-LEARNING INSTRUMENT TO SUPPORT STEM KNOWLEDGE BY MEANS OF SMART TEXTILES." In eLSE 2020. University Publishing House, 2020. http://dx.doi.org/10.12753/2066-026x-20-215.

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Smart textiles represent a future trend of development of high value-added products. Moreover, they are a result of interdisciplinary research, out of disciplines such as: mathematics, physics, textile material science and electrotechnics. All these disciplines may be on the other hand better understood in connection with palpable smart textile prototypes. Students of VET (Vocational Education and Training) in technical fields are tackling within their curricula all these basic disciplines. However, the horizon of end-applications and the interconnections between the disciplines remains often
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Hertleer, Carla, Johanna Louwagie, Cedric Cochrane, and Marilyne Rochery. "AN E-LEARNING COURSE ON SMART TEXTILES ENABLED BY TRITEX." In eLSE 2013. Carol I National Defence University Publishing House, 2013. http://dx.doi.org/10.12753/2066-026x-13-268.

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The TRITex project (Transfer of Research and Innovations in Textiles)frames in the Interreg IV programme which stimulates cross-regional cooperation between France, the Walloon provinces and Flandres. The TRITex partners are the Flemish Department of Textiles of Ghent University and ENSAIT, a French engineering school.They collaborate to promote the use of communication and information technologies for teaching in order to diffuse knowledge in the field of smart textiles. The main goal of the TRITexproject is to develop ane-learningcourse which is remotelyavailable through a digital platform f
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Granberry, Rachael, Brad Holschuh, and Julianna Abel. "Experimental Investigation of the Mechanisms and Performance of Active Auxetic and Shearing Textiles." In ASME 2019 Conference on Smart Materials, Adaptive Structures and Intelligent Systems. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/smasis2019-5661.

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Abstract Anisotropic textiles are commonly used in wearable applications to achieve varied bi-axial stress-strain behavior around the body. Auxetic textiles, specifically those that exhibit a negative Poisson’s ratio (v), likewise exhibit intriguing behavior such as volume increase in response to impact or variable air permeability. Active textiles are traditional textile structures that integrate smart materials, such as shape memory alloys, shape memory polymers, or carbon nanotubes, to enable spatial actuation behavior, such as contraction for on-body compression or corrugation for haptic f
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Reports on the topic "Smart textile"

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Abdel-Tawab, Nahla, Reham Abou El-Fadl, Noha El Khorazaty, and Tarek Alam Eldin. On-site provision of family planning services in factory settings in Egypt [in Arabic]. Population Council, 2024. http://dx.doi.org/10.31899/sbsr2024.1029.

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Between February 2023 and May 2024, the Population Council, in partnership with the Egyptian Chamber of Apparel and Home Textile Industries (ECAHT) and with support from the Ministry of Health and Population (MOHP) and the Embassy of the Kingdom of the Netherlands in Cairo, assessed the acceptability, effectiveness and cost of an intervention that combines raising awareness of family planning/reproductive health with on-site provision of family planning services. The intervention, known as the “Our Health is Our Capital” project, was implemented in 10 garment factories in El Amereya Free Inves
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Abdel-Tawab, Nahla, Reham Abou El-Fadl, Noha El Khorazaty, and Tarek Alam Eldin. On-site provision of family planning services in factory settings in Egypt. Population Council, 2024. http://dx.doi.org/10.31899/sbsr2024.1030.

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Between February 2023 and May 2024, the Population Council, in partnership with the Egyptian Chamber of Apparel and Home Textile Industries (ECAHT) and with support from the Ministry of Health and Population (MOHP) and the Embassy of the Kingdom of the Netherlands in Cairo, assessed the acceptability, effectiveness and cost of an intervention that combines raising awareness of family planning/reproductive health with on-site provision of family planning services. The intervention, known as the “Our Health is Our Capital” project, was implemented in 10 garment factories in El Amereya Free Inves
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3

Burns, Michael L. Medical Trauma Assessment Through the Use of Smart Textiles. Defense Technical Information Center, 1995. http://dx.doi.org/10.21236/ada344949.

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Ruppert-Stroescu, Mary. A Multidisciplinary Approach for Placement and Testing of Electronically Conductive Textiles in a Medical Smart Garment. Iowa State University, Digital Repository, 2016. http://dx.doi.org/10.31274/itaa_proceedings-180814-1692.

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Sofronova, Daniela, and Radostina A. Angelova. A Method for Testing of the Conductivity Decay of Threads for Embedded Wearable Electronic Devices in Smart Textiles. "Prof. Marin Drinov" Publishing House of Bulgarian Academy of Sciences, 2020. http://dx.doi.org/10.7546/crabs.2020.02.15.

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Santamaría, Viviana, and Carlos Umaña. Impacto comercial del Acuerdo Transpacífico y del Régimen Arancelario Preferencial en los países del Triángulo Norte de Centroamérica. Inter-American Development Bank, 2016. http://dx.doi.org/10.18235/0010107.

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Este estudio tiene como objetivo, a través de un análisis de equilibrio parcial, medir los efectos de creación y desviación de comercio derivados de la presencia de Vietnam en la zona de libre comercio del TPP y de la posibilidad -aunque al parecer remota- de renovación del TPL para Nicaragua en el marco del CAFTA-DR. Para su elaboración se han tomado en consideración únicamente el efecto desviación de comercio. De manera que el análisis se circunscribe únicamente a simular, a través del modelo WITS/SMART, el cambio de las corrientes de intercambio comercial deproductos textiles y de la confec
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