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Time profile of the glass-break detector testing scenario based on the accelerometer

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dc.title Time profile of the glass-break detector testing scenario based on the accelerometer en
dc.contributor.author Mach, Václav
dc.contributor.author Karhánková, Michaela
dc.contributor.author Adámek, Milan
dc.relation.ispartof Proceedings - 26th International Conference on Circuits, Systems, Communications and Computers, CSCC 2022
dc.identifier.isbn 978-1-6654-8186-1
dc.date.issued 2022
dc.citation.spage 56
dc.citation.epage 59
dc.event.title 26th International Conference on Circuits, Systems, Communications and Computers, CSCC 2022
dc.event.location Chania, Crete Island
utb.event.state-en Greece
utb.event.state-cs Řecko
dc.event.sdate 2022-07-19
dc.event.edate 2022-07-22
dc.type conferenceObject
dc.language.iso en
dc.publisher Institute of Electrical and Electronics Engineers Inc.
dc.identifier.doi 10.1109/CSCC55931.2022.00020
dc.relation.uri https://ieeexplore.ieee.org/document/10017963
dc.relation.uri https://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=10017963
dc.subject detector en
dc.subject Glass-break en
dc.subject Intruder Alarm System en
dc.subject technical security en
dc.description.abstract This paper is focused on the contact glass-break detectors used in technical security namely in the Intruder Alarm Systems. The glass-break detector is used as the main component of the perimeter layer of protection against the potential intruder. The main aim of this research is to measure and calculate the average time duration of the impact on the glass panel. More specifically, how long does it take to absorb created vibrations by the glass panel and the window frame. This number can also determine the maximal possible detection in one second. The second outcome is the graphical representation of the impact itself in time. The main experiment is done according to the standardization for the contact glass-break detectors and it is done by using the accelerometer placed on the glass panel which measures vibrations created by the impact in real-time. These data are measured and evaluated by the development of the development board called Arduino Nano, and the accelerometer MPU-6050. The experiment comes with all needed explanations and technical documentation. © 2022 IEEE. en
utb.faculty Faculty of Applied Informatics
dc.identifier.uri http://hdl.handle.net/10563/1011399
utb.identifier.obdid 43883695
utb.identifier.scopus 2-s2.0-85147734911
utb.source d-scopus
dc.date.accessioned 2023-02-25T13:54:24Z
dc.date.available 2023-02-25T13:54:24Z
dc.description.sponsorship MV-73045-3/OBVV-2021; Ministerstvo Školství, Mládeže a Tělovýchovy, MŠMT: LO1303, MSMT-7778/2014; European Regional Development Fund, ERDF: CEBIA-Tech ED2.1.00/03.0089
utb.contributor.internalauthor Mach, Václav
utb.contributor.internalauthor Karhánková, Michaela
utb.contributor.internalauthor Adámek, Milan
utb.fulltext.sponsorship This work was supported by the Ministry of Education, Youth and Sports of the Czech Republic within the National Sustainability Program Project No. LO1303 (MSMT-7778/2014), also by the European Regional Development Fund under the project CEBIA-Tech ED2.1.00/03.0089, and by the project VJ02010043-Crime Scenario Reconstruction Within Virtual Reality(MV-73045-3/OBVV-2021).
utb.scopus.affiliation Faculty of Applied Informatics, Tomas Bata University in Zlín, Zlín, Czech Republic
utb.fulltext.projects LO1303 (MSMT-7778/2014)
utb.fulltext.projects ED2.1.00/03.0089
utb.fulltext.projects VJ02010043 (MV-73045-3/OBVV-2021)
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