Identyfikatory
Warianty tytułu
Some aspects of development of textronics for sports and medical applications
Języki publikacji
Abstrakty
W prezentowanej pracy przedstawiono trendy rozwojowe związane z zastosowaniem tekstroniki w takich aspektach życia jak sport i medycyna. Artykuł ukazuje rozwój tekstroniki zarówno w Polsce jak i innych krajach Unii Europejskiej. Omówione zostały główne kierunki, które wymagają jeszcze prac, aby tekstronika mogła stanowić integralną część ubiorów, bez zaburzania komfortu użytkowania przy poprawnym jej działaniu.
This paper presents some aspects of development of textronics for sports and medical applications, especially on Polish and European market. The areas, where more engagements are needed before their incorporation to the clothing are discussed. Main research areas which stall need extended investigation in order to successfully integrate the textronic solutions with user friendly and comfortable clothing systems are discussed.
Wydawca
Czasopismo
Rocznik
Tom
Strony
34--40
Opis fizyczny
Bibliogr. 38 poz., il., schem., wykr.
Twórcy
autor
- Politechnika Łódzka, Katedra Materiałoznawstwa, Towaroznawstwa i Metrologii Włókienniczej, ul. Żeromskiego 116, 90-924 Łódź
Bibliografia
- [1] Michalak M., Krucińska I., Surma B., Textronic Textile Product Fibres & Textiles in Eastern Europe,14 (2006), nr 5 (59)
- [2] Coyle S., Morris D., Lau K.-T., Diamond D., Moyna, N. Textilebased wearable sensors for assisting sports performance. Wearable and Implantable Body Sensor Networks, International Workshop, (2009), 307–311
- [3] Krucińska I., Skrzetuska E., Urbaniak-Domagała W. Prototypes of Carbon Nanotube-Based Textile Sensors Manufactured by the Screen Printing Method. Fibres & Textiles in Eastern Europe; 20 (2012), 2(91), 79-83
- [4] De Rossi D., et al., Electroactive fabrics and wearable biomonitoring devices, AUTEX Research Journal, 3 (4) (2003), 180-185
- [5] . ChiolerioA.,et al., Inkjet printing and lower power laser annealing of silver nanoparticle traces for the realization of low resistivity lines for flexible electronics,Microelectronic Engineering, 88 (2011), 2481-2483.
- [6] SchwarzA., et al., Electro-conductive and elastic hybrid yarns – The effects of stretching, cyclic straining and washing on their electro-conductive properties,Materials and Design, 32 (2011), 4247-4256.
- [7] Bendkowska W., Tekstylia inteligentne – przegląd zastosowań. Część I: Tekstylia regulujące mikroklimat odzieży, Przegląd Włókienniczy 8 (2002)
- [8] Frydrysiak M, Zięba J. Textronic Sensor for Monitoring Respiratory Rhythm. Fibres & Textiles in Eastern Europe; 20(2012), 2(91): 74-78
- [9] Krucińska, I.; Skrzetuska, E.; Urbaniak-Domagała, W., The use of carbon nanotubes in textile printing, Journal of Applied Polymer Science, 121(2011), nr 1, 483-490
- [10] ParadisoR., Wearable health care system for vital signs monitoring,Conference Proceedings. 4th International IEEE EMBS Special Topic Conference on Information Technology Applications in Biomedicine 2003, Birmingham (2003), 283-286
- [11] LymberisA., DittmarA., Advanced wearable health systems and applications,IEEE Engineering in Medicine and Biology Magazine, (2007), 29-33.
- [12] ScilingoE.P. et al., Performance evaluation of sensing fabrics for monitoring physiological and biomechanical variables,IEEE Transactions on Information Technology in Biomedicine, 9 (3) (2005), 345-352.
- [13] SeoaneF., MarquezJ.C., FerreiraJ., BuendiaR., LindecrantzK., The challenge of the skin-electrode contact in textile-enabled electrical bioimpedance, measurements for personalized healthcare monitoring applications, Biomedical Engineering, Trends in Material Science, (2011), 541-546.
- [14] DunneL.E., BradyS., SmythB., DiamondD., Initial development and testing of a novel foam-based pressure sensor for wearable sensing, Journal of NeuroEngineering and Rehabilitation, 2 (4) (2005).
- [15] Bartkowiak G.,Kierunki rozwoju odzieży inteligentnej Bezpieczeństwo Pracy 01 (2010), 18-22
- [16] BialD., KernD., AltF., Schmidt A., Enhancing Outdoor Navigation Systems Through Vibrotactile Feedback,CHI ’11 Extended Abstracts on Human Factors in Computing Systems`, New York, NY, USA, 2011, 1273-1278.
- [17] Garland I., Ukrainian inventors create a 'super' glove for the deaf that converts sign language into speech,Mail Online Science and Tech, 11 July 2012, http://www.dailymail.co.uk/sciencetech/article-2171677/Ukrainian- inventors-create-super-glove-convertssign-language-speech.html
- [18] Krucinska I., Surma B., Chrzanowski M., Skrzetuska E., Puchalski M. Application of melt-blown technology in the manufacturing of a solvent vapor-sensitive, non-woven fabric composed of poly(lactic acid) loaded with multi-walled carbon nanotubes.Textile Research Journal, (2012) doi:10.1177/0040517512460293
- [19]Krucinska I., Surma B., Chrzanowski M.,Study on Sensing Properties of Electro-spun PEO/MWNT Non-woven Fabric, Research Journal of Textile and Apparel, 14 (4), (2010), 89-96
- [20]Krucinska I., Surma B., Chrzanowski M., Skrzetuska E., Puchalski M. Application of melt-blown technology for the manufactureof a temperature-sensitive non-woven fabrics composed ofpolymer blends PP/PCL loaded with multi-wall carbonnanotubes,Journal of Applied Polymer Science, 127 (2013), 869-878, doi: 10.1002/app.37834.
- [21] PROETEX - NMP2-CT-2006-026987 Protective and monitoring textiles for the human body, 01/02/2006-31/01/2010
- [22]PROETEX, Advanced e-textiles for firefighters and civilian victims-Inner Garment, http://www.proetex.org/objectives.htm
- [23]Coyle S., Benito-Lopez F., Radu T Lau K.T., Diamond D., Fibers and Fabrics forChemical and Biological Sensing, Research Journal of Textile and Apparel, 14 (4), (2010), 63-72
- [24]Paradiso R., Caldani L., Electronic Textile Platforms forMonitoring in a Natural Environment, Research Journal of Textile and Apparel, 14 (4), (2010), 9-21
- [25]Paradiso R., Loriga G.,Taccini N., A Wearable Health Care System Based on KnittedIntegrated Sensors, IEEE Trans. on Information Technology In Biomedicine, 9 (3), (2005), 337-344
- [26]WEALTHY - European IST Project 2001-37778, Wearable Health Care System, 01/09/2002-28/02/2005
- [27]ScilingoE.P., Gemignani A., Paradiso R., Taccini N., Ghelarducci B., De Rossi D., Performance Evaluation of Sensing Fabricsfor Monitoring Physiological andBiomechanical Variables, IEEE Transactions on Information Technology In Biomedicine, 9 (3), (2005), 345-352
- [28]LópezG.,CustodioV., Moreno J.I., LOBIN: E-Textile and Wireless-Sensor-Network-Based Platform for Healthcare Monitoring in Future Hospital Environments, IEEE Trans. on Information Technol. In Biomedicine, 14(6), (2010), 1446-1458
- [29] Nokajima H., Takahashi M., Saito K., Ito K., The characteristic of the RFID antenna by poses of human body for urination sensing, Proceedings of ISAP 2012, Nagoya, Japan, (2012), POS2-52
- [30] Toor A., Somnus Sleep Shirt watches while you sleep, won't be creepy about it, 23.05.2011 http://www.engadget.com/2011/05/23/somnus-sleep-shirt-watches-while-you-sleep-wontbe-creepy-abou
- [31] Damir B., T-shirt with sensors and a smart system monitor health, 27.06.2012, http://www.robaid.com/bionics/t-shirt-withsensors-and-a-smart-system-monitor-health.htm
- [32] DunneL.E.,Brady S., Diamond D.,Initial development and testing of a novel foam-based pressure sensor for wearable sensing, J NeuroengineeringRehabil.,; 2 (2005)
- [33] . Varadan V. K., KumarP. S., OhS., KwonH., RaiP., BanerjeeN., HarbaughR. E., e-Nanoflex Sensor System: Smartphone-Based Roaming Health Monitor, J. Nanotechnol. Eng. Med.–2 (2011)nr 1,
- [34] Byfordon S., Adidas miCoach Elite System to be integrated in Major League Soccer from 2013, 20.06.2012, http://www.theverge.com/2012/7/20/3171410/adidas-micoachelite-system-major-league-soccer
- [35] FitzgeraldM., Use a Heart Rate Monitor to Measure Heart Rate Recovery - An Important Measure of Fitness, 01.07.2009, http://www.numetrex.com/op/use-a-heart-rate-monitor-tomeasure-heart-rate-recovery-an-important-measure-of-fitness
- [36] Ferri, A., Corbellini, S., Parvis, M.,Splendore, R., Compact RF Sensors for Monitoring Thermo-physiological Comfort of Sportswear, IEEE Instrumentation and Measurement Technology Conference (I2MTC),(2010), 1262 - 1267
- [37] LorussiF., RocchiaW., ScilingoE.P., TognettiA., De RossiD., Wearable, redundant fabric-based sensor arrays for reconstruction of body segment posture,IEEE Sensors Journal, 4 (6) (2004), 807-818.
- [38]Furtak N., Master of Science in Textile Engineering, Personalization of clothing for volleyball players equipped with textronic systems, promotor Krucińska I., Politechnika Łódzka, (2012)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-301001ea-9801-45ed-87ca-6bc334f65f13