Conference papers (KET)
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Item Orientation of carbon nanotubes using electric field for applications of electrochemical sensors(IEEE, 2020) Šlauf, Josef; Pavec, Martin; Řeboun, Jan
Item A contact structure for the hybrid resistive embroidery threads(IEEE, 2020) Kalčík, Jan; Kalaš, David; Suchý, Stanislav; Soukup, RadekItem System for testing and evaluating the thermal comfort of smart textiles clothing(IEEE, 2020) Šíma, Karel; Moučková, Kateřina; Hamáček, Aleš; Soukup, Radek; Komárková, Petra; Glombíková, VieraItem Preparation of nitrogen dioxide sensor utilizing aerosol Jet Printing technology(IEEE, 2020) Navrátil, Jiří; Kuberský, Petr; Sedlák, Petr; Hamáček, AlešItem Influence of production and operating conditions on properties of acrylic conformal coatings(IEEE, 2020) Steiner, František; Hirman, Martin; Rous, Pavel; Hornak, JaroslavItem Parameters of tensiometric textile threads based on material composition(IEEE, 2020) Michal, David; Suchý, Stanislav; Moučková, Kateřina; Řeboun, JanItem A comparison of resistance spot and ultrasonic welding of hybrid conductive threads(IEEE, 2020) Suchý, Stanislav; Kalaš, David; Kalčík, Jan; Soukup, RadekItem Electrical resistance of solder joints on conductive ribbons(IEEE, 2020) Hirman, Martin; Navrátil, Jiří; Steiner, František; Hamáček, AlešItem Reliability of glued SMD components on smart textile(IEEE, 2020) Hirman, Martin; Navrátil, Jiří; Steiner, František; Hamáček, AlešItem Optimization of contacting technological process on printed conductive pattern for wearable electronics(IEEE, 2020) Benešová, Andrea; Hirman, Martin; Hlína, Jiří; Tupa, Jiří; Steiner, František; Řeboun, JanItem Resistance measurement method for IoT and low power application(IEEE, 2020) Šíma, Karel; Kalaš, David; Pretl, Silvan; Hamáček, AlešItem Contacting of SMD components on the textile substrates(IEEE, 2020) Kalaš, David; Suchý, Stanislav; Kalčík, Jan; Řeboun, Jan; Soukup, Radek; Hamáček, AlešItem E-textile piano fabricated using several textile technologies(IEEE, 2020) Kosť, Lukáš; Pavec, Martin; Michal, David; Moravcová, Daniela; Soukup, Radek; Hamáček, AlešItem Interconnection of terminals on flexible substrates with printed conductive patterns(IEEE, 2020) Řeboun, Jan; Kalaš, David; Michal, David; Hlína, JiříItem Copper-filled vias made by thick printed copper technology(IEEE, 2020) Hlína, Jiří; Řeboun, Jan; Michal, David; Hamáček, AlešItem Evaluation of structure influence within the context of water diffusion and surface current of glass reinforced polymer composites for HV insulation(Springer Nature, 2020) Kadlec, Petr; Pihera, Josef; Prosr, Pavel; Džugan, Tomáš; Totzauer, Pavel; Hornak, Jaroslav; Kroupa, Tomáš; Zemčík, Hana; Pavlica, Richard; Sedláčková, Pavlína; Komárek, JosefItem Simple calibration method for improving the comparability of PD measurement results at HVDC conditions(Springer Nature, 2020) Haller, Rainer; Hornak, Jaroslav; Martínek, Petr; Hlaváček, JanItem Dielectric behaviour of natural and synthetic esters at inhomogeneous field conditions(Springer Nature, 2020) Haller, Rainer; Hornak, Jaroslav; Trnka, Pavel; Hlaváček, Jan; Gamil, AhmedItem Project management during the industry 4.0 implementation with risk factor analysis(Elsevier, 2019) Hirman, Martin; Benešová, Andrea; Steiner, František; Tupa, JiříThis paper analyses the process of Industry 4.0 implementation into the companies. The main purpose of this article was to determine the project framework for implementation of Industry 4.0 concept. The first part describes the basic principles of Industry 4.0 concept and 7 phases of Industry 4.0 implementation process. The second part describes the current state of art in the field of the project management in company with Industry 4.0. The third part deals with the implementation of Industry 4.0 project phase description and the definition of used methodology. The next part consist of the methodology application for the definition, evaluation and suggestion of solutions to reducing the risk threads for the typical production company in middle Europe. The last part deals with the project team members recommendations in case of small, medium and large companies.
Item Determination of changes in process management within industry(Elsevier, 2019) Benešová, Andrea; Hirman, Martin; Steiner, František; Tupa, JiříThe company's ability to adapt to rapid market changes will be among the key factors for Industry's competitiveness within Industry 4.0. The basic of flexibility is quick respond to customer requirements and well-set and controlled production processes. Processes of Industry 4.0 will be different from existing processes, not only in terms of using new technologies such as digitization or augmented reality, but also in terms of management and support processes. The main aim of the article is possible changes determination of process management within Industry 4.0. For that, the current production process will be compared with the process in Industry 4.0. The described changes within Industry 4.0 will also have an impact on the organization architecture of company. The changes will be also in the production environment and in the supply chain. The described changes in the process management will also have an impact on the company risks. The main risks of changes within Industry 4.0 will be summarized in the article.
