Thesis Details

Digitální PIR detektor pohybu

Bachelor's Thesis Student: Končitík Peter Academic Year: 2015/2016 Supervisor: Husák Jiří, Ing.
English title
Digital PIR Motion Detector
Language
Czech
Abstract

The bachelor's thesis deals with analysis of motion detection through a passive infra-red sensor. The sensor obtains analogue data. Consequently, they are transferred via an analogue digital converter to digital data, which are then evaluated through the designed algorithm. The transmission of signals from the sensor was performed by Arduino Leonardo platform. It communicates with a personal computer via a serial port. The motion is evaluated in the final program according to the threshold figure which is acquired on the basis of the performed tests. In the course of the tests, the sensor was monitoring motion of people and moving objects. The thesis also examines new possibilities of usage of the sensor and it presents the measured data while exposing the sensor to fire and freeze.

Keywords

Passive Infrared sensor, A/D converter, Fresnel lens, pyroelectricity, Arduino Leonardo

Department
Degree Programme
Information Technology
Files
Status
defended, grade D
Date
14 June 2016
Reviewer
Committee
Švéda Miroslav, prof. Ing., CSc. (DIFS FIT BUT), předseda
Fučík Otto, doc. Dr. Ing. (DCSY FIT BUT), člen
Očenášek Pavel, Mgr. Ing., Ph.D. (DIFS FIT BUT), člen
Szőke Igor, Ing., Ph.D. (DCGM FIT BUT), člen
Šátek Václav, Ing., Ph.D. (DITS FIT BUT), člen
Citation
KONČITÍK, Peter. Digitální PIR detektor pohybu. Brno, 2016. Bachelor's Thesis. Brno University of Technology, Faculty of Information Technology. 2016-06-14. Supervised by Husák Jiří. Available from: https://www.fit.vut.cz/study/thesis/18417/
BibTeX
@bachelorsthesis{FITBT18417,
    author = "Peter Kon\v{c}it\'{i}k",
    type = "Bachelor's thesis",
    title = "Digit\'{a}ln\'{i} PIR detektor pohybu",
    school = "Brno University of Technology, Faculty of Information Technology",
    year = 2016,
    location = "Brno, CZ",
    language = "czech",
    url = "https://www.fit.vut.cz/study/thesis/18417/"
}
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