Lighting Control Module Development
Vol. 1 No. 12 (2023), Articles
Vol. 1 No. 12 (2023)

Lighting Control Module Development

Articles
Published 2023-12-27
Yurii Vizir
Department of Computer-Integrated Technologies, Automation and Robotics, Kharkiv National University of Radio Electronics, Ukraine
Olena Chala
Department of Computer-Integrated Technologies, Automation and Robotics, Kharkiv National University of Radio Electronics, Ukraine
Svitlana Maksymova
Department of Computer-Integrated Technologies, Automation and Robotics, Kharkiv National University of Radio Electronics, Ukraine
Ahmad Alkhalaileh
Senior Developer Electronic Health Solution, Amman, Jordan
PDF
DOI

Keywords

Lighting control, Illumination control, Lighting module, Intelligent production, Prototype, 3D printing.

How to Cite

Yurii Vizir, Olena Chala, Svitlana Maksymova, & Ahmad Alkhalaileh. (2023). Lighting Control Module Development. Journal of Universal Science Research, 1(12), 645–657. Retrieved from https://universalpublishings.com/index.php/jusr/article/view/3656
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

       Lighting control is an extremely pressing task in the modern world. On the one hand, poor lighting leads to reduced safety, including injuries and deaths. On the other hand, excessive lighting leads to excess energy waste, which should be avoided. This article describes the development of a lighting control module based on Arduino Mega. The article provides a selection of the necessary equipment, and a block diagram of the proposed device is also created. A 3D model of the device case was developed, and the case was also printed on a 3D printer. The assembly of the developed lighting control module is proposed.

PDF
DOI

References

Lyashenko, V., Mustafa, S. K., Sotnik, S., & Ayaz, A. M. (2019). Basic principles of decision making upon receipt of new nanomaterial. International Journal of Advanced Trends in Computer Science and Engineering, 8(5), 2680-2685.

Mousavi, S.M.H.; MiriNezhad, S.Y.; Lyashenko, V. An evolutionary-based adaptive Neuro-fuzzy expert system as a family counselor before marriage with the aim of divorce rate reduction. In Proceedings of the 2nd International Conference on Research Knowledge Base in Computer Engineering and IT, Uttrakhand, India, 24–26 March 2017.

Mustafa, S. K., Yevsieiev, V., Nevliudov, I., & Lyashenko, V. (2022). HMI Development Automation with GUI Elements for Object-Oriented Programming Languages Implementation. SSRG International Journal of Engineering Trends and Technology, 70(1), 139-145.

Nevliudov, I., Yevsieiev, V., Lyashenko, V., & Ahmad, M. A. (2021). GUI Elements and Windows Form Formalization Parameters and Events Method to Automate the Process of Additive Cyber-Design CPPS Development. Advances in Dynamical Systems and Applications, 16(2), 441-455.

Sotnik, S., Mustafa, S. K., Ahmad, M. A., Lyashenko, V., & Zeleniy, O. (2020). Some features of route planning as the basis in a mobile robot. International Journal of Emerging Trends in Engineering Research, 8(5), 2074-2079.

Al-Sharo, Y. M., Abu-Jassar, A. T., Sotnik, S., & Lyashenko, V. (2021). Neural Networks As A Tool For Pattern Recognition of Fasteners. International Journal of Engineering Trends and Technology, 69(10), 151-160.

Nevliudov, I., & et al.. (2020). Method of Algorithms for Cyber-Physical Production Systems Functioning Synthesis. International Journal of Emerging Trends in Engineering Research, 8(10), 7465-7473.

Abu-Jassar, A. T., Al-Sharo, Y. M., Lyashenko, V., & Sotnik, S. (2021). Some Features of Classifiers Implementation for Object Recognition in Specialized Computer systems. TEM Journal: Technology, Education, Management, Informatics, 10(4), 1645-1654.

Baker, J. H., Laariedh, F., Ahmad, M. A., Lyashenko, V., Sotnik, S., & Mustafa, S. K. (2021). Some interesting features of semantic model in Robotic Science. SSRG International Journal of Engineering Trends and Technology, 69(7), 38-44.

Chen, W. (2020). Intelligent manufacturing production line data monitoring system for industrial internet of things. Computer communications, 151, 31-41.

Lyashenko, V., & et al. (2023). Automated Monitoring and Visualization System in Production. Int. Res. J. Multidiscip. Technovation, 5(6), 09-18.

Bondariev, A., & et al. (2023). Automated Monitoring System Development for Equipment Modernization. Journal of Universal Science Research, 1(11), 6-16.

Abu-Jassar, A. T., Attar, H., Yevsieiev, V., Amer, A., Demska, N., Luhach, A. K., & Lyashenko, V. (2022). Electronic User Authentication Key for Access to HMI/SCADA via Unsecured Internet Networks. Computational Intelligence and Neuroscience, 2022, 5866922.

Гиренко, А. В., Ляшенко, В. В., Машталир, В. П., & Путятин, Е. П. (1996). Методы корреляционного обнаружения объектов. Харьков: АО “БизнесИнформ, 112.

Lyashenko, V., & et al.. (2016). The Methodology of Image Processing in the Study of the Properties of Fiber as a Reinforcing Agent in Polymer Compositions. International Journal of Advanced Research in Computer Science, 7(1), 15-18.

Khan, A., Joshi, S., Ahmad, M. A., & Lyashenko, V. (2015). Some Effect of Chemical Treatment by Ferric Nitrate Salts on the Structure and Morphology of Coir Fibre Composites. Advances in Materials Physics and Chemistry, 5(1), 39-45.

Bortnikova, V., & et al. (2019). Mathematical model of equivalent stress value dependence from displacement of RF MEMS membrane. In 2019 IEEE XVth International Conference on the Perspective Technologies and Methods in MEMS Design (MEMSTECH), IEEE, 83-86.

Maksymova, S. & Akopov, M. (2023). Selection of Sensors for Building a 3D Model of the Mobile Robot's Environment. In VII International Conference Manufacturing & Mechatronic Systems (2023), 33-35.

Nevliudov, I., & et al. (2023). Mobile Robot Navigation System Based on Ultrasonic Sensors. In 2023 IEEE XXVIII International Seminar/Workshop on Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory (DIPED),IEEE, 1, 247-251.

Maksymova, S., Matarneh, R., Lyashenko, V. V., & Belova, N. V. (2017). Voice Control for an Industrial Robot as a Combination of Various Robotic Assembly Process Models. Journal of Computer and Communications, 5, 1-15.

Matarneh, R., Maksymova, S., Deineko, Z., & Lyashenko, V. (2017). Building robot voice control training methodology using artificial neural net. International Journal of Civil Engineering and Technology, 8(10), 523-532.

Attar, H., Abu-Jassar, A. T., Amer, A., Lyashenko, V., Yevsieiev, V., & Khosravi, M. R. (2022). Control System Development and Implementation of a CNC Laser Engraver for Environmental Use with Remote Imaging. Computational intelligence and neuroscience, 2022, 9140156.

Attar, H., Abu-Jassar, A. T., Yevsieiev, V., Nevliudov, I., Lyashenko, V., & Luhach, A. K. (2022). Zoomorphic Mobile Robot Development for Vertical Movement Based on the Geometrical Family Caterpillar. Computational Intelligence and Neuroscience, 2022, 3046116.

Xiao, H., & et al. (2022). Automatic illumination control method for indoor luminaires based on multichromatic quantum dot light-emitting diodes. Micromachines, 13(10), 1767.

Xiao, H., & et al. (2023). Influence factors on illuminance distribution uniformity and energy saving of the indoor illumination control method. Applied Optics, 62(10), 2531-2540.

Wang, Y., & et al. (2020). An “illumination moving with the vehicle” intelligent control system of road tunnel lighting. Sustainability, 12(18), 7314.

Wang, T., & et al. (2020). Dimming techniques of visible light communications for human-centric illumination networks: State-of-the-art, challenges, and trends. IEEE Wireless Communications, 27(4), 88-95.

Weng, R. C., & et al. (2019). Design and Implementation of Illumination Control of High Speed Chip-Back Defects Inspection System. In 2019 IEEE 8th Global Conference on Consumer Electronics (GCCE), IEEE, 233-235.

Xiao, L., & et al. (2018). Design of Intelligent Illumination Controller for Agricultural Greenhouse Based on Arduino Board. In 2018 7th International Conference on Advanced Materials and Computer Science (ICAMCS 2018), 308-312.

Saravanan, G., & et al. (2021). IoT materials enabled indoor light illumination monitoring system. Materials Today: Proceedings, 45, 6277-6281.

Osma-Pinto, G., & Amado-Duarte, L. (2021). Selection of the control alternative with the minimum energy consumption for the hybrid illumination system of inner spaces. Journal of Building Engineering, 35, 102046.

Mahmoud, M. M., & Muradkhanli, L. (2020). Safer design and less cost operation for low-traffic long-road illumination using control system based on pattern recognition technique. Intelligent Control and Automation, 11(03), 47.

Ghosh, A., & et al. (2020). Design and real-time implementation of cloud based indoor illumination monitoring system. Journal of The Institution of Engineers (India): Series B, 101, 223-227.

Maksymova, S., & et al. (2023). 3D Robot Model Development. Technical Science Research In Uzbekistan, 1(4), 255-267.

De Melo, M. S. P., & et al. (2019). Analysis and comparison of robotics 3d simulators. In 2019 21st Symposium on Virtual and Augmented Reality (SVR), IEEE, 242-251.

Nevliudov I., & et al. (2023) A Small-Sized Robot Prototype Development Using 3D Printing. In XXXI International Conference CAD In Machinery Design Implementation and Educational Issues, 12.

Zhang, J., & et al. (2019). A review of the current progress and application of 3D printed concrete. Composites Part A: Applied Science and Manufacturing, 125, 105533.

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.