The dissertation deals with the potential of radiofrequency identification in the safety field. The thesis describes the analysis and verification of the possibilities of RFID application in two application cases – identification of protective suits and short firearms. In the introductory part are the possibilities of RFID described, description is focused mainly on the UHF band components. Following the analytical part I carry out suggestions on the use of specific hardware. I compare and verify the features of selected devices via laboratory and in situ experiments, a matter of course is a statistical evaluation of the experimental results. For protective suits management system resistance to temperatures, liquids and washing process are essential. Software processing data from RFID technology was designed as well. Similarly, I have also explored the possibility of application of this technology in the area of firearms management systems, where the most important limit is the applicability to metal surfaces along with minimization of ergonomics disruption.
Author: Jiří Švub
Abstract:
The dissertation deals with the potential of radiofrequency identification in the safety field. The thesis describes the analysis and verification of the possibilities of RFID application in two application cases – identification of protective suits and short firearms. In the introductory part are the possibilities of RFID described, description is focused mainly on the UHF band components. Following the analytical part I carry out suggestions on the use of specific hardware. I compare and verify the features of selected devices via laboratory and in situ experiments, a matter of course is a statistical evaluation of the experimental results. For protective suits management system resistance to temperatures, liquids and washing process are essential. Software processing data from RFID technology was designed as well. Similarly, I have also explored the possibility of application of this technology in the area of firearms management systems, where the most important limit is the applicability to metal surfaces along with minimization of ergonomics disruption.
Keywords: Identification, RFID, UHF, Fireman, protective suit, gun management