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Securing IoT applications with Arm Cortex-M33 microcontrollers
Tonka, Marek ; Zeman, Václav (oponent) ; Slavíček, Karel (vedoucí práce)
The bachelor thesis analyses the characteristics of modern microcontrollers with ARM Cortex-M33 architecture and their contribution to securing IoT applications. The theoretical part focuses on the introduction of ARM along with the characteristic of the ARMv8 architecture on which the Cortex-M33 processors are built. Emphasis is also placed on the introduction of the new TrustZone technology, which is a key security feature of these processors. Subsequently, a selection of microcontrollers and their features from five leading semiconductor companies is presented. The practical part covers the installation and setup of the two IDEs for the following work with the NUCLEO-575-ZI-Q and LPC55S69-EVK boards. Based on these development boards, four unique features are tested to demonstrate the benefits of using ARM processors to secure IoT applications.
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RFID Reader for 13.56 MHz Band
Obšitník, Michal ; Zamazal, Michal (oponent) ; Povalač, Aleš (vedoucí práce)
The aim of this thesis is to design an RFID reader for the 13.56 MHz band and to compile a control program. In the first part, the work is aimed at getting acquainted with the principle of operation of RFID and NFC technologies, together with the related international standard, and at getting familiarized with the various transceivers available to operate these technologies. Because the transceiver for the further evaluation is clearly specified in the assignment, their comparison serves a purely informational purpose. In the practical part, the task is to design and revive a prototype RFID reader. The base of the project is a reader board carrying out RFID communication, audiovisual response, and connection to an OLED display. This board is connected to a microcontroller, which controls the whole device. Another part of the project is set of different antennas that can be connected to the reader board and replaced at any time. The manufactured antennas are subject to a testing of how two different tuning methods affect their operation. The maximum reading distance, success of the performed readings and value of the electrical current that is a result of the calibration process are being tested. The output of the thesis is an RFID reader with a control program.
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RFID Reader for 13.56 MHz Band
Obšitník, Michal ; Zamazal, Michal (oponent) ; Povalač, Aleš (vedoucí práce)
The aim of this thesis is to design an RFID reader for the 13.56 MHz band and to compile a control program. In the first part, the work is aimed at getting acquainted with the principle of operation of RFID and NFC technologies, together with the related international standard, and at getting familiarized with the various transceivers available to operate these technologies. Because the transceiver for the further evaluation is clearly specified in the assignment, their comparison serves a purely informational purpose. In the practical part, the task is to design and revive a prototype RFID reader. The base of the project is a reader board carrying out RFID communication, audiovisual response, and connection to an OLED display. This board is connected to a microcontroller, which controls the whole device. Another part of the project is set of different antennas that can be connected to the reader board and replaced at any time. The manufactured antennas are subject to a testing of how two different tuning methods affect their operation. The maximum reading distance, success of the performed readings and value of the electrical current that is a result of the calibration process are being tested. The output of the thesis is an RFID reader with a control program.
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