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Namizna lučka 'Ambilight'
ID SEDEJ, MIHA (Author), ID Rozman, Robert (Mentor) More about this mentor... This link opens in a new window

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Abstract
V sklopu diplomskega dela smo razvili prototip namizne luči, ki je s pomočjo brezžične mrežne kartice povezan v omrežje. Delovanje luči lahko nadziramo preko mobilne aplikacije na telefonu ali tablici z operacijskim sistemom Android. Luč lahko upravljamo tudi preko spletne aplikacije s kateregakoli računalnika v omrežju. Uporabnik lahko izbira med različnimi načini uporabe; med temi je najbolj pomemben način cirkadianega ritma, ki uporabniku zagotavlja zanj optimalno osvetlitev. Zaledni del sistema, ki se odziva na uporabnikove akcije poganja računalnik Raspberry Pi, ki preko razvitega aparaturnega prototipa posledično krmili našo namizno luč. Pri našem delu smo najprej raziskali vpliv svetlobe različnih barv na človekovo počutje; med njimi smo se osredotočili predvsem na oranžno in modro svetlobo. Zasnovali smo tudi vso potrebno programsko, strojno opremo skupaj z vezalno shemo ter v ohišju namizne lučke realizirali sistem v obliki samostojnega prototipa.

Language:Slovenian
Keywords:Raspberry Pi, AngularJS, Framework7, Python, Flask, Android, cirkadiani ritem, razsvetljava
Work type:Bachelor thesis/paper
Organization:FRI - Faculty of Computer and Information Science
Year:2017
PID:20.500.12556/RUL-91341 This link opens in a new window
Publication date in RUL:28.03.2017
Views:2567
Downloads:389
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SEDEJ, MIHA, 2017, Namizna lučka “Ambilight” [online]. Bachelor’s thesis. [Accessed 1 June 2025]. Retrieved from: https://repozitorij.uni-lj.si/IzpisGradiva.php?lang=eng&id=91341
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Secondary language

Language:English
Title:'Ambilight' Table Lamp
Abstract:
In this thesis, a prototype of a table lamp has been developed. The operation of the lamp can be controlled on a smartphone or a tablet via a mobile application for the Android operating system. The lamp can also be controlled via a web application from any computer connected to the network. Users can choose between different modes of operation; among them, the most important is the circadian rhythm mode that provides the user with the optimal well-being lighting. The back-end part of the system, which responds to the actions of the user, is powered by a Raspberry Pi that in turn controls the table lamp via designed hardware prototype board. In our diploma thesis, we first studied the effect of light of different colors on the human being. Among them, we focused on the orange and blue light. We have also designed all the necessary software, hardware and a wiring diagram and have created the standalone product prototype in the existing table lamp housing.

Keywords:Raspberry Pi, AngularJS, Framework7, Python, Flask, Android, circadian rhythm, lighting

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