METHODS FOR PARAMETERS CONTROLLING AND REGULATING THE INDUSTRIAL PREMISES MICROCLIMATE
Vol. 2 No. 6 (2024), Articles
Vol. 2 No. 6 (2024)

METHODS FOR PARAMETERS CONTROLLING AND REGULATING THE INDUSTRIAL PREMISES MICROCLIMATE

Articles
Published 2024-06-08
Holod Ihor
Department of Computer-Integrated Technologies, Automation and Robotics, Kharkiv National University of Radio Electronics, Ukraine
Vladyslav Yevsieiev
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

Microclimate, Parameter Control, Regulation, Automation, Computer-Integrated Technologies, Manufacturing Innovation, Industrial Innovation.

How to Cite

Holod Ihor, Vladyslav Yevsieiev, Svitlana Maksymova, & Ahmad Alkhalaileh. (2024). METHODS FOR PARAMETERS CONTROLLING AND REGULATING THE INDUSTRIAL PREMISES MICROCLIMATE. TECHNICAL SCIENCE RESEARCH IN UZBEKISTAN, 2(6), 46–57. Retrieved from https://universalpublishings.com/index.php/tsru/article/view/6203
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

This article discusses the methods for controlling parameters and regulating the industrial premises microclimate. 13 different methods are described, from simple to complex integrated systems. For each method, an overview of its advantages and disadvantages is provided. The urgency of the problem and the need to find modern approaches to ensure optimal production conditions and a comfortable environment for employees are highlighted

PDF
DOI

References

Nevliudov, I., Yevsieiev, V., Baker, J. H., Ahmad, M. A., & Lyashenko, V. (2020). Development of a cyber design modeling declarative Language for cyber physical production systems. J. Math. Comput. Sci., 11(1), 520-542.

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.

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.

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.

Sotnik, S., Matarneh, R., & Lyashenko, V. (2017). System model tooling for injection molding. International Journal of Mechanical Engineering and Technology, 8(9), 378-390.

Al-Sherrawi, M. H., Lyashenko, V., Edaan, E. M., & Sotnik, S. (2018). Corrosion as a source of destruction in construction. International Journal of Civil Engineering and Technology, 9(5), 306-314.

Lyashenko, V., Ahmad, M. A., Sotnik, S., Deineko, Z., & Khan, A. (2018). Defects of communication pipes from plastic in modern civil engineering. International Journal of Mechanical and Production Engineering Research and Development, 8(1), 253-262.

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.

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.

Ahmad, M. A., Sinelnikova, T., Lyashenko, V., & Mustafa, S. K. (2020). Features of the construction and control of the navigation system of a mobile robot. International Journal of Emerging Trends in Engineering Research, 8(4), 1445-1449.

Al-Sharo, Y. M., Abu-Jassar, A. T., Sotnik, S., & Lyashenko, V. (2023). Generalized Procedure for Determining the Collision-Free Trajectory for a Robotic Arm. Tikrit Journal of Engineering Sciences, 30(2), 142-151.

Kuzomin, O., Ahmad, M. A., Kots, H., Lyashenko, V., & Tkachenko, M. (2016). Preventing of technogenic risks in the functioning of an industrial enterprise. International Journal of Civil Engineering and Technology, 7(3), 262-270.

Buts, D., & et al. (2023). Signals Collisions Detection in Wireless Networks. Journal of Universal Science Research, 1(11), 156-168.

Maksymova, S., & et al. (2024). The Monitoring System Architecture Development. Journal of Universal Science Research, 2(1), 69-79.

Vizir, Y., & et al. (2023). Lighting Control Module Development. Journal of Universal Science Research, 1(12), 645-657.

Nevliudov, I., & et al. (2023). Monitoring System Development for Equipment Upgrade for IIoT. In 2023 IEEE 5th International Conference on Modern Electrical and Energy System (MEES), IEEE, 1-5.

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

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.

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

Andrii Bondariev, & et al. (2022). Automated Monitoring System Development. Manufacturing & Mechatronic Systems 2022: Proceedings of VIst International Conference, Kharkiv, 15-18.

Yevsieiev, V., & et al. (2022). Development of A System for the Production Process Monitoring Using Telegram Bot. The III International Scientific and Theoretical Conference “The Current State of Development of World Science: Characteristics and Features”,Lisbon, Portuguese Republic. 70-72.

Nevliudov, I., & et al. (2020). Development of an ArchitecturalLogical Model to Automate the Management of the Process of Creating Complex Cyberphysical Industrial Systems. Восточно-Европейский журнал передовых технологий, 4(3-106), 44-52.

Al-Sharo Y., & et al. (2023). A Robo-hand prototype design gripping device within the framework of sustainable development. Indian Journal of Engineering, 2023, 20, e37ije1673.

Sotnik S., & et al.. (2022). Key Directions for Development of Modern Expert Systems. International Journal of Engineering and Information Systems (IJEAIS), 6(5), 4-10.

Lyashenko, V., & Sotnik, S. (2022). Overview of Innovative Walking Robots. International Journal of Academic Engineering Research (IJAER), 6(4), 3-7.

Lyashenko, V., & Sotnik, S. (2020). Analysis of Basic Principles for Sensor System Design Process Mobile Robots. Journal La Multiapp, 1(4), 1-6.

Lyashenko, V., Matarneh, R., & Kobylin, O. (2016). Contrast modification as a tool to study the structure of blood components. Journal of Environmental Science, Computer Science and Engineering & Technology, 5(3), 150-160.

Lyashenko, V. V., Matarneh, R., Kobylin, O., & Putyatin, Y. P. (2016). Contour Detection and Allocation for Cytological Images Using Wavelet Analysis Methodology. International Journal, 4(1), 85-94.

Tahseen A. J. A., & et al.. (2023). Binarization Methods in Multimedia Systems when Recognizing License Plates of Cars. International Journal of Academic Engineering Research (IJAER), 7(2), 1-9.

Abu-Jassar, A. T., Attar, H., Lyashenko, V., Amer, A., Sotnik, S., & Solyman, A. (2023). Access control to robotic systems based on biometric: the generalized model and its practical implementation. International Journal of Intelligent Engineering and Systems, 16(5), 313-328.

Attar, H., Abu-Jassar, A. T., Lyashenko, V., Al-qerem, A., Sotnik, S., Alharbi, N., & Solyman, A. A. (2023). Proposed synchronous electric motor simulation with built-in permanent magnets for robotic systems. SN Applied Sciences, 5(6), 160.

Sotnik, S., & et al.. (2022). Modern Industrial Robotics Industry. International Journal of Academic Engineering Research, 6(1),. 37-46.

Lyashenko, V., & et al.. (2021). Semantic Model Workspace Industrial Robot. International Journal of Academic Engineering Research, 5(9), 40-48.

Al-Sherrawi, M. H., Al-Rumaithi, A., Edaan, I. M., Sotnik, S., & Lyashenko, V. (2018). Features of plastics in modern construction use. International Journal of Civil Engineering and Technology, 9(4), 975-984.

Khan, A., Ahmad, M., Joshi, S., & Lyashenko, V. (2016). Synthesis of Alumina Fibre by Annealing Method using Coir Fibre. American Chemical Science Journal, 15(2), 1-7.

V. Lyashenko, R. Matarneh, and S. Sotnik, “Modeling of Machine Design with Numerical Control in UG NX 7.5 System”, The International Journal of Engineering and Science (IJES), vol. 7(7), pp. 28-37, 2018.

Tikhomirov, D. A., & et al. (2020). Energy-efficient thermoelectric unit for microclimate control on cattlebreeding premises. Energy Reports, 6, 293-305.

Bherwani, H., & et al. (2020). Assessment methods of urban microclimate and its parameters: A critical review to take the research from lab to land. Urban Climate, 34, 100690.

Hosseinloo, A. H., & et al. (2020). Data-driven control of micro-climate in buildings: An event-triggered reinforcement learning approach. Applied Energy, 277, 115451.

Liaskovska, S., & et al. (2023). Investigation of Microclimate Parameters in the Industrial Environments. In The International Conference on Artificial Intelligence and Logistics Engineering, Cham: Springer Nature Switzerland, 448-457.

Pankratova, N. D., & et al. (2020). Decision support system for microclimate control at large industrial enterprises. In CMIS, 489-498.

Korenivska, O. L., & et al. (2023). A system for monitoring the microclimate parameters of premises based on the Internet of Things and edge devices. Journal of Edge Computing, 2(2), 125-147.

Creative Commons License

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