Thesis supervisor: Ferenc Szabó
Location of studies (in Hungarian): University of Pannonia, Faculty of Information Technology, Department of Electrical Engineering and Information Systems Abbreviation of location of studies: PE
Description of the research topic:
In the current economic environment energy efficient lighting plays an important role. The instruments of
modern lighting technology - the energy efficient, light emitting diode based (LED) light sources - make it
poss ible to realise intelligent, adaptive indoor and outdoor lighting systems by using the tools of informatics and computer science. These systems besides having significant potential to reduce energy consumption, can be adjusted to the properties of the human visual system. The application of these new light sources raises new questions about visual ergonomics and non-visual effects which could be answered using the tools and knowledge base of informatics. The preliminary results of this research include the development of intelligent adaptive LED-based lighting systems for inside lighting, public lighting and museum lighting. The newer research directions aim towards human-centric lighting (improve vitamin content ofnutriments, correction of the shift of daily biorhythm, etc.). The field of research includes photometric measurements and psychophysical experiments, whose planning and realisation requires sure knowledge in inforrnatics, mathematics and statistics.
Preliminary results can be found in the following publications:
[1] 1. Schanda, P. Csuti, F. Szabó, P. Bhusal, L. Halonen: Introduction to a study of preferred colour rendering of light sources, Lighting Research and Technology 2015 47: I 28-35., impact factor: 1.667 (2015/16), Online ISSN: 1477-0938 Print ISSN: 1477-1535
[2] 1. Schanda, P. Csuti, F. Szabó: Colour fidelity for picture gallery illumination, Part 1: Oetermining optimum LED spectrum, Lighting Research and Technology 2015 47:5 513-521, impact factor: 1.667 (2015/16), Online ISSN: 1477-0938 Print ISSN: 1477-1535
[3] P. Csuti, A. Fáy, 1. Schanda, F. Szabó, V. Tátrai: Colour fidelity for picture gallery illumination, Part 2: Test samp!e selection - museum tests, Lighting Research and Technology, 2015 47:5 522-532, impakt faktor: 1.667 (2015/16), Online ISSN: 1477-0938 Print ISSN: 1477-1535
[4] F. Szabó, R. Kéri, J. Schanda, P. Csuti, E. Mihálykó Orbán: A study of preferred colour rendering of light sources: Home Lighting, Lighting Research and Technology, 2015, impact factor: 1.667 (2015/16), Online ISSN: 1477-0938 Print ISSN: 1477-1535
[5] F. Szabó, R. Kéri, A. Wilm, J. Schanda, P. Csuti, E. Baur: A study of preferred colour rendering of light sources: Shop Lighting, Lighting Research and Technology, 2015, impact factor: 1.667 (2015/16), Online ISSN: 1477-0938 Print ISSN: 1477-1535
[6] J. Schanda, P. Csuti, F. Szabó: A new concept of colour fidelity for museum lighting, LEUKOS: The Journal of the Illuminating Engineering Society of North America, Colour Rendering Issue, 2015, impact factor: 0.958 (2014), 001: 10.1080/15502724.2014.978503
[7] Éva Orbán Mihálykó, László Koltay, Ferenc Szabó, Péter Csuti, Renáta Kéri, János Schanda: A New Statistical Method for Ranking of Light Sources based on Subjective Points of View, Acta Polytechnica Hungarica, Vol 12, Issue 8, ppI95-214, 2015, ISSN 1785-8860, impact factor: 0.47
Number of students who can be accepted: 1
Deadline for application: 2017-10-30
2024. IV. 17. ODT ülés Az ODT következő ülésére 2024. június 14-én, pénteken 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).
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