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Izdelava sistema za zajem elektrofizioloških signalov in praktična uporaba pri izdelavi računalniškega vmesnika na principu elektrookulografije
ID ŠTOJS, JURE (Author), ID Logar, Vito (Mentor) More about this mentor... This link opens in a new window

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Abstract
Magistrsko delo opisuje celoten postopek izdelave sistema za zajem elektrofizioloških signalov, analizo takih signalov, praktično uporabo na preprostem primeru in nekaj predlogov za izboljšavo sistema glede na praktično uporabo. Prvo poglavje opisuje razvoj sistema, kar vključuje načrtovanje tiskanega vezja, programiranje in na koncu verifikacijo sistema. Naslednje poglavje se nanaša na analizo signalov, kar je uporabljeno v tretjem poglavju. Tretje poglavje predstavi praktično uporabo sistema za upravljanje s kurzorjem na zaslonu kot nadomestek klasične računalniške miške. Naloga se zaključi s predlogi za razvoj namenskega sistema in se nanaša na praktično uporabo, ki je predstavljena v tretjem poglavju. Končni rezultat dela je izdelan delujoč sistem za zajem elektrofizioloških signalov, katerega dobro delovanje je podkrepljeno z dejanskimi meritvami. Uporabnost takega sistema je dodatno potrjena z uporabo na praktičnem primeru.

Language:Slovenian
Keywords:sistem za zajem elektrofizioloških signalov, elektrookulografija, analiza signalov
Work type:Master's thesis/paper
Organization:FE - Faculty of Electrical Engineering
Year:2018
PID:20.500.12556/RUL-102396 This link opens in a new window
Publication date in RUL:27.08.2018
Views:1158
Downloads:301
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Secondary language

Language:English
Title:Development of a measurement system for electrophysiological signals and practical application of the user interface based on electrooculography
Abstract:
This master's thesis presents the process of developing a system for measuring electrophysiological signals, signal analysis, a practical usage example and some suggestions for improving the system regarding the practical usage example. The first chapter describes the development process of the system which includes printed circuit board design, programming and system verification. The second chapter refers to signal analysis, which is then used in the third chapter. The third chapter presents a practical usage example of the system for controlling a computer cursor. This is meant as a substitute for a normal computer mouse. The thesis ends with the fourth chapter offering some suggestions regarding the development of a new dedicated system and is based on the practical usage example presented in the third chapter. The end result is a working system for capturing electrophysiological signals which proper functioning is backed up with actual measurments. Usefulness of such a system is further confirmed by a practical example.

Keywords:system for capturing electrophysiological signals, electrooculography, signal analysis

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