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Stały URI dla kolekcjihttp://hdl.handle.net/11652/4411
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Pozycja Development of sensor design for smart kinesiotape for future sensing applications in motion capturing(Wydawnictwo Politechniki Łódzkiej, 2022) Winger, Hans; Böhnke, Philippa Ruth Christine; Kruppke, Iris; Nocke, Andreas; Cherif, ChokriThe “CENTRE FOR TACTILE INTERNET WITH HUMAN-IN-THE-LOOP (CeTI)” is a Cluster of Exellence that, from an textile point of view, deals with the development and invention concerning smart devices [1]. These can be used in many fields e.g. industry 4.0, medicine and skill leaning. Currently expensive, tender and large, stationary camera systems are necessary to capture human motions for various applications. The usage of textile substrates with implemented sensory units gives high potential for body-near motion capturing. Smart textiles gain more and more interest in the field of sports [2] and health monitoring. The avoidance of personal injuries due to the incorrect execution of movements is one main target to reach with smart textiles in healthcare and sports. The aim of the contribution is the investigation of characteristics using electrically conductive (EC) yarns implemented in woven textiles as future smart textiles for close up motion capturing.Pozycja Feasibility of smart-textiles for vehicle-exterior: impact of disturbances(Wydawnictwo Politechniki Łódzkiej, 2022) Edel, Fabian; Lübbe, NicoThere are many challenges when using Smart-Textile controls with conductive yarn in daily activities involving vehicle exteriors. To test its general feasibility, disruptive factors like keys, rings, or skin care products as well as sensor knitting densities and -sizes need to be accounted for, in its day-to-day use. To investigate the influences of those disruptive factors and variables, multiple test series are concluded within a constructed test environment. The tests provide pre-defined distances between a finger and a Smart-Textile button, to research differences in the reactivity of the sensor. The results show that the use of the Smart-Textile with disruptive factors and changing variables can be challenging to implement due to interferences with the expected signals but can be accounted for when installed properly. Furthermore, the results provide a more advanced understanding of common influences with regards to the individual factors intensities and the following actual returned signals. Through those results, suitable configurations, and limitations for Smart-Textile sensors in vehicle exteriors can be derived.Pozycja Experimental abrasion analysis of textile capacitive sensors(Wydawnictwo Politechniki Łódzkiej, 2022) Martínez-Estrada, Marc; Ventura, Heura; Gil, Ignacio; Fernández-García, RaúlThis paper presents an experimental abrasion analysis of textile capacitive sensors based on Martindale test. The textile sensor is manufactured with a well-known woven technology where some yarns are replaced by electrical conductive yarn. Specifically, two types of conductive yarns were used to compare the abrasion behaviour respect to conventional fabrics and the impact of abrasion on sensors functionality. The results show that the integration of conductive yarn on fabric don’t reduce the fabric lifetime and moreover the sensing behaviour remains unalterable during the lifetime of the textile.