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HomeEngineering InnovationsEngineering Innovations Vol. 15IoT-Based Smart Energy Management for Smart Grids...

IoT-Based Smart Energy Management for Smart Grids Applied in a Home

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Abstract:

The growing demand for effective energy management in smart grids necessitates modern monitoring and optimization methods. Traditional energy distribution systems confront numerous issues, including high electricity costs, ineffective load management, and a lack of real-time data analytics. This study describes an IoT-based Smart Energy Monitoring System (SEMS) for continuous real-time energy tracking, with accurate current measurements provided via wireless transmission and predictive analytics. The system is designed to provide reliable and precise current measurements. The suggested system combines wireless data transmission and predictive analytics. The technology enables real-time energy monitoring and assists users in analysing consumption trends to make more informed decisions. It also allows for more efficient load control by identifying peak consumption periods. An energy audit validates the system, indicating considerable reductions in power losses as well as increased economic feasibility. The findings demonstrate that IoT-driven smart energy management improves sustainability, dependability, and cost effectiveness in modern smart grids.

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Engineering Innovations Vol. 15

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Periodical:

Engineering Innovations (Volume 15)

Pages:

43-52

DOI:

https://doi.org/10.4028/p-WdVi6D

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Cite this paper

Online since:

November 2025

Authors:

Abdullah Mushtaq, Wasim Ahmad*

Keywords:

Energy Management, IoT, Smart Energy Power, Smart Grids

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Creative Commons CC BY 4.0

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* - Corresponding Author

[1] Gungor, V. C., et al. 2011. Smart Grid Technologies: Communication Technologies and Standards. IEEE Transactions on Industrial Informatics, 7(4), 529-539.

DOI: 10.1109/tii.2011.2166794

[2] Fang, X., et al. 2012. Smart Grid—The New and Improved Power Grid: A Survey. IEEE Communications Surveys & Tutorials, 14(4), 944-980.

DOI: 10.1109/surv.2011.101911.00087

[3] Yan, Y., et al. 2013. A survey on Smart Grid communication infrastructures: Motivations, requirements, and challenges. IEEE Communications Surveys & Tutorials, 15(1), 5-20.

DOI: 10.1109/surv.2012.021312.00034

[4] Alahakoon, D., & Yu, X. 2016. Smart Electricity Meter Data Intelligence for Future Energy Systems: A Survey. IEEE Transactions on Industrial Informatics, 12(1), 425-436.

DOI: 10.1109/tii.2015.2414355

[5] Khan, S., et al. 2017. Industrial Internet of Things: Recent Advances, Enabling Technologies and Open Challenges. Computers & Electrical Engineering, 64, 2-20.

[6] Ghayvat, H., Mukhopadhyay, S. C., Gui, X., & Suryadevara, N. K. (2015). "WSN- and IoT-based smart homes and energy management: A review". IEEE Sensors Journal, 15(12), 6315-6330.

DOI: 10.3390/s150510350

[7] Khan, M. A., & Salah, K. (2018). "IoT security: Review, blockchain solutions, and open challenges". Future Generation Computer Systems, 82, 395-411.

DOI: 10.1016/j.future.2017.11.022

[8] Mengelkamp, E., Gärttner, J., Rock, K., Kessler, S., Orsini, L., & Weinhardt, C. (2018). "Designing microgrid energy markets: A case study: The Brooklyn Microgrid". Applied Energy, 210, 870-880.

DOI: 10.1016/j.apenergy.2017.06.054

[9] Wang, J., Zhong, H., Tan, Z., Kang, C., & Xia, Q. (2020). "Review and prospect of integrated demand response in the multi-energy system". Applied Energy, 262, 114506.

[10] Nguyen, K. T., Laurent, M., & Oualha, N. (2015). "Survey on secure communication protocols for the Internet of Things". Ad Hoc Networks, 32, 17-31.

DOI: 10.1016/j.adhoc.2015.01.006

[11] Islam, S. R., Kwak, D., Kabir, M. H., Hossain, M., & Kwak, K. S. (2019). "The internet of things for health care: A comprehensive survey". IEEE Access, 7, 27042-27072.

DOI: 10.1109/access.2015.2437951

[12] Pop, C., Cioara, T., Antal, M., Salomie, I., & Bertoncini, M. (2018). "Blockchain-based decentralized energy management of microgrids". Sensors, 18(6), 1621.

DOI: 10.3390/s18010162

[13] Hussain, F., Hussain, R., Hassan, S. A., & Hossain, E. (2020). "Machine learning in IoT security: Current solutions and future challenges". IEEE Communications Surveys & Tutorials, 22(3), 1686-1721.

DOI: 10.1109/comst.2020.2986444

[14] Babu, Riad Mollik and Basher, Enamul. 2024. "Performance Evaluation and Economic Analysis of a Grid-Connected Solar Power Plant: A Case Study of Engreen Sarishabari Solar Plant Ltd. in Bangladesh". None

DOI: 10.12912/27197050/185934

[15] Arruda, Roberto Nonato De, Figueiredo, Karoline V., Vasco, D., Haddad, A., and Najjar, Mohammad K.. 2023. "Cost-benefit analysis of solar energy integration in buildings: a case study of affordable housing in Brazil". Frontiers in Built Environment

DOI: 10.3389/fbuil.2023.1255845

[16] Hassan, Mohammed Tarek, Abdelgeliel, M., and Hamad, M.. 2022. "ENERGY audit and management on residential and commercial building: A case study". IEEE International Conference on Renewable Energy Research and Applications

DOI: 10.1109/ICRERA55966.2022.9922771

[17] Wisudanto, Wisudanto, Qonitah, Iftinaniffah, and Utomo, Wahyu. 2024. "Investment Feasibility Analysis of Rooftop Solar Power Plant for Spare Parts Supply Company". Sebatik

DOI: 10.46984/sebatik.v28i2.2386

[18] Cheng, Qian. 2025. "Application and Analysis of Renewable Energy in Building Energy Efficiency". Applied and Computational Engineering

DOI: 10.54254/2755-2721/2025.20337

[19] Mishra,B. and Sharma, Aakash. 2023. "Assessing the Integration of Energy Audit and Management Practices within Sustainable Finance Frameworks". Sachetas

DOI: 10.55955/240003

[20] Bigaila, E., Hachem-Vermette, Caroline, El-Sayed, M., and Athienitis, A.. NaN. "SOLAR ENERGY POTENTIAL FOR COMMERCIAL BUILDING FAADE RETROFIT". None. https://doi.org/None

[21] Muhammad, Jamilu Ya''u, Adamu, Abdul, Alhaji, Abdulkarim Mikail, and Ali, Yerima Yusif. 2019. "Energy Audit and Efficiency of a Complex Building: A Comprehensive Review". None

[22] Doty, S. and Turner, W.. 2020. "Energy Management Handbook". None

DOI: 10.5860/choice.30-4428

[23] Alereza, T., Faramarzi, R., Mort, D., and Reeves, P.. 1998. "Assessment of energy efficiency solutions in a commissary". None. https://doi.org/None

[24] Herzog, T. and Krippner, R.. NaN. "Architectural Aspects of Solar Techniques. Studies on the Integration of Solar Energy Systems into the Building Skin.". None. https://doi.org/None

[25] Al-Jbour, Abeer, Abutayeh, Heba, and Qawasmeh, B.. 2024. "An Assessment Tool for Energy Audit of Buildings in Jordan Using Simulation". Global Journal of Energy Technology Research Updates

DOI: 10.15377/2409-5818.2024.11.1

[26] NodeMCU. "NodeMCU ESP8266 Dev Board Datasheet." [Online]. Available: https://nodemcu.readthedocs.io/

[27] YHDC. "SCT-013-000 Non-Invasive AC Current Sensor Datasheet." [Online]. Available: https://www.yhdc.com/en/product/425/

[28] Arduino. "Arduino UNO Rev3 – Technical Specifications." [Online]. Available: https://store.arduino.cc/products/arduino-uno-rev3

DOI: 10.1201/9781003201700-1