ANALYSIS OF MONITORING AND MANAGEMENT METHODS FOR ENERGY SUPPLY SOURCES

Authors

  • Dilmurod Davronbekov Tashkent University of Information Technologies named after Muhammad Al-Khwarizmi
  • Muradov Mukhammad Tashkent University of Information Technologies named after Muhammad Al-Khwarizmi

Keywords:

uninterrupted electrical energy, sensors, IoT, microcontroller

Abstract

Efficient energy management is a crucial factor in the operation of a system. Today, many systems cannot effectively function without an uninterrupted power supply. Ensuring the continuity and reliability of electrical energy is essential in monitoring, analyzing, and managing energy consumption. By continuously monitoring energy supply sources and improving automatic control methods, it is possible to enhance energy efficiency and ensure uninterrupted power supply. Therefore, this research analyzes the methods of monitoring and managing electrical energy supply sources.

References

U. K. Matyokubov, M. M. Muradov and O. B. Djumaniyozov, "Analysis of Sustainable Energy Sources of Mobile Communication Base Stations in the Case of Khorazm Region," 2022 International Conference on Information Science and Communications Technologies (ICISCT), Tashkent, Uzbekistan, 2022, pp. 1-4, doi: 10.1109/ICISCT55600.2022.10146885.

Matyokubov, O‘tkir, and Muhammad Muradov. “Mobil aloqa tayanch stansiyasi elektr ta’minot tizimlaridagi dolzarb muammolar.” International Journal of scientific and Applied Research 1.3 (2024): 79-83.

8. Davronbekov, Dilmurod Abdujalilovich and Matyokubov, Utkir Karimovich (2021) "The use of supercapacitors to stabilize the power supply system of the base station of mobile communication" Scientific-technical journal: Vol. 25: Iss.1, Article 1.

Matyokubov U.K., Davronbekov D.A. The impact of mobile communication power supply systems on communication reliability and viability and their solutions // International Journal of Advanced Science and Technology. Vol. 29, No. 5, (2020), pp. 3374 – 3385.

Davronbekov, Dilmurod; Matyokubov, Utkir Karimovich; and Abdullaeva, Malika Ilkhamovna (2020) "Evaluation of reliability indicators of mobile communication system bases," Bulletin of TUIT: Management and Communication Technologies: Vol. 3 , Article 1. DOI: 10.51348/tuitmct321

Khan MS, Chang YC, Kabir MA, Romli MI, Vaithilingam CA, Hosain J. Real-time control system adopted to energy storage for smart grid low wind applications: a part of distributed renewables in smart city. Journal of Electronic Science and Technology, 2021 Dec 25;19(4):379- 89.

U. K. Matyokubov, M. M. Muradov and J. F. Yuldoshev, "Development of the Method and Algorithm of Supplying the Mobile Communication Base Station with Uninterrupted Electrical Energy," 2024 IEEE 25th International Conference of Young Professionals in Electron Devices and Materials (EDM), Altai, Russian Federation, 2024, pp. 2400-2406, doi: 10.1109/EDM61683.2024.10615043.

Elias A, Maina C, Ngoo L. Modelling and Energy Management strategy in a grid connected solar PV-battery energy storage system. Journal of Agriculture, Science and Technology, 2021 Oct 29;20(3):4- 15.

Chockalingam AL, Lokesh K, Pradeep M, Radhakrishnan K. Four port DC-DC converter for a renewable energy system using Arduino. Turkish Journal of Physiotherapy and Rehabilitation, 32:3

Karimovich, Matyokubov Oʻtkirbek, K. Muradov MM, and O. B. Djumaniyazov. "Xorazm viloyati misolida mobil aloqa tayanch stansiyalari barqaror energiya manbalarining tahlili." Komputer texnologiyalari 1.10 (2022).

Murod o‘g‘li, Muradov Muhammad. "Enhancing the energy efficiency of wireless sensor networks." international scientific conferences with higher educational institutions. Vol. 1. No. 05.05. 2023.

Jamal Khan, Design of smart energy management system using Arduino, International research journal of modernization in engineering technology and science, Volume:05, Issue:10, 2023.

Al Rakib, M.A., Rahman, M.M., Alam Anik, M.S., Jahangir Masud, F.A., Islam, S., Rahman, M.A., Chakraborty, S. and Abbas, F.I. 2022. Arduino Based Efficient Energy Storage Systems Using Solar and Wind Power. European Journal of Engineering and Technology Research. 7, 2 (Apr. 2022), 134–139. DOI:https://doi.org/10.24018/ejeng.2022.7.2.2743.

Elias, A. , Maina, C. and Ngoo, L. Modelling and energy management strategy in a grid connected solar pv-battery energy storage system. journal of agriculture, science and technology. 20, 3 (Oct. 2021).

Ali, S. et al. 2024. IoT enabled implementation of a smart energy management system for real-time monitoring and controlling. VAWKUM Transactions on Computer Sciences. 12, 2 (Nov. 2024), 81–98. DOI:https://doi.org/10.21015/vtcs.v12i2.1952.

A. Multi and M. Mujiburohman, “Application design of a multiple power source monitoring system based on the internet of things (IoT),” International Journal of Advanced Multidisciplinary, vol. 8, no. 5, pp. 2829–6184, 2024.)

Venugopal, Chitra and Thershen Govender. “Load power and energy management system using proteus visual design software.” Indonesian Journal of Electrical Engineering and Computer Science 20 (2020): 1044-1052.

S.Modi, R.Naiya & Sh.Shabana, Intelligent energy management system for residential buildings based on Zigbee technology, ternational Journal of Power System Operation and Energy Management ISSN (PRINT): 2231 – 4407, Volume-2, Issue-1,2;

Vijayabhasker Reddy P. Shah, T. H. Shaikh, K. P. Ghan and S. N. Shilaskar, "Power Management Using ZigBee Wireless Sensor Network," 2008 First International Conference on Emerging Trends in Engineering and Technology, Nagpur, India, 2008, pp. 242-245, doi: 10.1109/ICETET.2008.161.

Changhai Peng, Kun Qian. Development and Application of ZigBee-Based Building Energy Monitoring and Control System // The Scientific World Journal. -2014. –p.2-13.

Ali Moussa, M., Derrouazin, A., Latroch, M., & Aillerie, M. (2022). A hybrid renewable energy production system using a smart controller based on fuzzy logic. Electrical Engineering & Electromechanics, (3), 46–50. https://doi.org/10.20998/2074-272X.2022.3.07

I. K. Siddikov, K. A. Sattarov and K.E.Khujamatov, “Modeling of the transformation elements of power sources control,” 2017 International Conference on Information Science and Communications Technologies (ICISCT), Tashkent, Uzbekistan, 2017, pp. 1-5, doi: 10.1109/ICISCT.2017.8188581.

K. E. Khujamatov, D. T. Khasanov and E. N. Reypnazarov, "Research and Modelling Adaptive Management of Hybrid Power Supply Systems for Object

Telecommunications based on IoT," 2019 International Conference on Information Science and Communications Technologies (ICISCT), Tashkent, Uzbekistan, 2019, pp. 1-5, doi: 10.1109/ICISCT 47635.2019.901183.

Siddikov I.X., Temirov A.A. Gibrid energiya ta’minoti: manbalarning boshqaruvi va monitroringi, Raqamli texnologiyalarning nazariy va amaliy masalalari xalqaro jurnali, № 1(7), 2024.

Siddikov, I.K., Khujamatov, K.E. and Temirov, A.A., 2022. Models for Determination of Maximum Power in Compatible Management of Hybrid Energy Sources. Journal of Ethics and Diversity in International Communication, 2(3), pp.105-121.

Downloads

Published

2025-02-28

How to Cite

Davronbekov, D., & Muradov , M. (2025). ANALYSIS OF MONITORING AND MANAGEMENT METHODS FOR ENERGY SUPPLY SOURCES. DIGITAL TRANSFORMATION AND ARTIFICIAL INTELLIGENCE, 3(1), 221–228. Retrieved from https://dtai.tsue.uz/index.php/dtai/article/view/v3i133