PL EN
ORIGINAL PAPER
ELECTRONIC CONTROL OF LOCAL UNIFORMITY OF ILLUMINANCE FROM POWER LED
 
More details
Hide details
1
Kharkiv National University of Internal Affairs,, Kremenchuk flight college
 
2
Odessa Military Academy
 
3
Military University of Technology, Faculty of Security, Logistics and Management, Institute of Logistics
 
 
A - Research concept and design; B - Collection and/or assembly of data; C - Data analysis and interpretation; D - Writing the article; E - Critical revision of the article; F - Final approval of article
 
 
Publication date: 2020-06-30
 
 
SLW 2020;52(1):115-124
 
KEYWORDS
ABSTRACT
It has been suggested to assess non-uniformity of illuminance by the coordinate distribution of its gradient. By the example of mathematical model, the possibility to form a desired illuminance gradient profile from a multicomponent module by means of electronic control of the LED lighting parameters.
PEER REVIEW INFORMATION
Article has been screened for originality
REFERENCES (24)
1.
ADAKIN, V. A., IREVLINA, P. S. (2016). The use of alternative light sources in low-intensity lights at flight strips. Inzhenero-tekhnicheskoye obespecheniye APK [Engineering support of the agrarian and industrial complex], Vol. 2, 3–7.
 
2.
ANISIMOV, V. I., BUDAK, V. P., ZHUKOV, V. V., KALOSHIN, G. A., SHISHKIN, S. A. (2016). Visibility range of the signal LED lights. Svetotekhnika [Lighting Engineering], No. 4, 28–32.
 
3.
EPSTAIN, M. I. (1975). Optical radiation measurements in electronics. Energiya [Energy]. Moscow. 247.
 
4.
GALAKOVA, G. A., LYALYUTSKAYA, M. YU., GALAKOVA, K. A. (2016). Innovation techniques in the production of aerodrome lighting equipment. Aktualnyye problemy aviatsii i kosmonavtiki [Contemporary issues of aviation and astronautics], Vol. 2, 414–416.
 
5.
GORBUNOVA, E. V., KOROTAEV, V. V., PERETYAGIN, V. S., CHEROTOV, A. N. (2013). Simulation of the multicomponent emitting source. Izvestiye vuzov. Priborostroyeniye [News of the Higher Educational Institutions. Instrument Making], Vol. 56. No. 5, 31–34.
 
6.
GRIDIN, V. N., ZAYTSEV, S. N., RYZHIKOV, I. V., SHCHERBAKOV, V. N. (2012). The development of the new generation semiconductor light sources. Kompyuternaya optika [Computer-based optics], No. 4, Vol. 36, 541–552.
 
7.
HOLOVENSKYI, V. V., BAZYK, O. I., LISOVENKO, V. D. (2018). Detection considerations for light and infrared signals of aerodrome spotlights. Kyiv: Collection of scientific papers of the Military Institute of Taras Shevchenko Kyiv National University. No. 4(61), 5–13.
 
8.
HOLOVENSKYI, V. V., LISOVENKO, D. V. (2017). Retrospective review, current stage and prospects for the use of LED emitters in light signaling devices. Odesa: Collection of scientific papers of the Military Academy. No. 2(8), 30–35.
 
9.
HOLOVENSKYI, V.V., (2018). Extending the detection range of aerodrome beam signals in adverse meteorological conditions, Visnyk Natsionalnoho Aviatsiinoho Universytetu, [Bulletin of the National Aviation University]. Kyiv: National Aviation University, vol. 74, no. 1, 45-52.
 
10.
HOLOVENSKYI, V.V., ANDRUSEVYCH, A.O., LISOVENKO, V.D. (2017). Light amplifiers, night vision cameras and thermal imaging systems in aviation. Aviation and Astronautics: Proceedings of the 7th All-Ukrainian Research and Practical Conference, Kryvyi Rih. April 19, 2017. Ministry of Education and Science of Ukraine. State Higher Educational Institution Kryvyi Rih National University, 96.
 
11.
HOLOVENSKYI, V.V., LISOVENKO, D.V. (2017). LED spotlight with regulated emission indicatrix: patent No. 121.853. Application date 08/09/2017, No. а 201708256. Published 12/26/2017. Bul. No. 24, 4.
 
12.
HOLOVENSKYI, V.V., LISOVENKO, D.V., HULIAK, O.V. (2018). Method of light signals observation in the aircraft follow-up under adverse weather condition: patent No. 129019. Application date 09/01/2017, No. а 201708804. Published 10/25/2018. Bul. No. 20, 2.
 
13.
KNORRING, G. M., FADIN, I. M., SIDOROV, V. N. (1992). Reference book for electric lighting design. Energoizdat. Saint Petersburg, 448.
 
14.
LED spotlight with regulated emission indicatrix. Patent number: 121853., Published: 12/26/2017 Authors: Volodymyr Vasyliovych Holovenskyi, Denys Valentynovych Lisovenko International Patent Classification (IPC): F21K 9/65, F21W 111/043, F21K 9/00.
 
15.
MILLS, A., (2003), Nitridesin Nora-III-VS Review, vol. 16, no 6, pp. 34 – 38.
 
16.
MILLS, A., (2003), Solid stating light – a world of expanding opportunities at LED, 2002//III-VS Review, vol. 16, no 1, pp. 30 – 33.
 
17.
PATENT. LED spotlight with regulated emission indicatrix. Patent number: 121853. Published: 12/26/2017 Authors: Holovenskyi V.V., Lisovenko D.V. International Patent Classification (IPC): F21K 9/65, F21W 111/043, F21K 9/00.
 
18.
PERETYAGIN, V. S. (2015). Research and development of multicomponent lighting devices for optical and electronic systems of the color analysis of objects: Thesis work PhD in Technical Sciences: 05.11.07. Saint Petersburg. 142.
 
19.
SOBOLEV, E. V., PODDENEZHNY, E. N. (2011). Computer modeling of lighting elements of the LED lighting systems. Herald of P.O. Sukhoy Gomel State Technical University. 2011. No. 2 (45), 61–67.
 
20.
SOBOLEV, E. V., PODDENEZHNY, E. N. (2011). Simulation of the lighting characteristics of LED modules. Sovremennyye problemy svetotekhniki i eekertroenergetiki [Contemporary issues of lighting engineering and electric power engineering]. Proceedings of the 4th International Research and Practical Conference of Kharkov National Academy of Municipal Economy. Kharkov. April 13-14, 81–83.
 
21.
THESIS WORK. LISOVENKO D. V. Rationale for the technical implementation of the light signaling system of the quick development flight strips based on LED emitters: Thesis work PhD: 20.02.14 – 2006.
 
22.
TITOVA, А. А. (2012). Experimental and numerical calculation of LED directional diagrams. Collection of scientific papers SWORLD. 2012. Vol. 7. No. 4, 10–16.
 
23.
UDALTSOV, V. E., UVAROVA, А. (2010). А Simulation of the emission spreading process in LEDs. Izvestiye vuzov. Priborostroyeniye [News of the Higher Educational Institutions. Instrument Making], Vol. 53. No. 7, 67–73.
 
24.
ZYRYANOV, YU. T., VOLKOV, V. V., DMITRIYEV, V. M. (2011). Energy-saving technologies in the design and operation of lighting equipment complexes of airfields. Energosberezheniye i energoeffektivnost [Energy saving and energy efficiency], No. 2 (38), 22–24.
 
eISSN:2719-7689
ISSN:1508-5430
Journals System - logo
Scroll to top