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Jaya Gopinath Wagh,
Goraksh B. Polade,
- Assistant Professor, Professor, Electrical Department in JIT Engineering College, Gangapur Road, Nashik, Maharashtra, India
- Assistant Professor, Electrical Department in MET Engineering College, Adgaon, Nashik, Maharashtra, India
Abstract
Information and communication technologies (ICTs), their salient features, and their role in achieving greater energy efficiency in smart buildings are the main topics of this article. considering that the primary focus of the inquiry is electrical energy, which is the most utilized. Energy harvesting and green energy are both discussed in this paper since they both increase energy efficiency by supplying more clean energy. The primary contribution of this study is highlighting the most pertinent current and
developing ICT tools and methods that may be applied to maximize the energy efficiency of smart buildings. There are primarily three main areas of concern: compared to costly automation systems, efficiency improvements and basic energy-saving measures like insulation and appliances are likely to produce more cost-effective energy savings; the systems create significant concerns around information management and access in the house and are probably marketed to high-end clients based more on ease and better control than on energy savings. Regulation will be required to guarantee the possible environmental advantages of home automation systems.
Keywords: Smart home technology, home automation initiatives, energy efficiency and IT energy storage, sustainability, green energy, energy distribution, energy management, energy efficiency, energy savings, smart buildings, energy supply
[This article belongs to Journal of Software Engineering Tools & Technology Trends ]
Jaya Gopinath Wagh, Goraksh B. Polade. Supporting Technologies and Techniques for Energy Efficient Smart Home Automation System. Journal of Software Engineering Tools & Technology Trends. 2025; 12(02):52-58.
Jaya Gopinath Wagh, Goraksh B. Polade. Supporting Technologies and Techniques for Energy Efficient Smart Home Automation System. Journal of Software Engineering Tools & Technology Trends. 2025; 12(02):52-58. Available from: https://journals.stmjournals.com/josettt/article=2025/view=0
References
- Bhutta FM. Application of smart energy technologies in building sector—future prospects. In: 2017 International Conference on Energy Conservation and Efficiency (ICECE), Lahore, Pakistan, November 22–23, 2017. pp. 7–10.
- Attia M, Haidar N, Senouci SM, Aglzim EH. Towards an efficient energy management to reduce CO2 emissions and billing cost in smart buildings. In: 2018 15th IEEE Annual Consumer Communications & Networking Conference (CCNC), Las Vegas, NV, USA, January 12–15, 2018. pp. 1–6.
- Zungeru AM, Gaboitaolelwe J, Diarra B, Chuma JM, Ang LM, Kolobe L, David M, Zibani I. A secured smart home switching system based on wireless communications and self-energy harvesting. IEEE Access. 2019; 7: 25063–25085.
- Matiko JW, Grabham NJ, Beeby SP, Tudor MJ. Review of the application of energy harvesting in buildings. Meas Sci Technol. 2013; 25 (1): 012002.
- Boamah MD, Lozier EH, Kim J, Ohno PE, Walker CE, Miller III TF, Geiger FM. Energy conversion via metal nanolayers. Proc Natl Acad Sci USA. 2019; 116 (33): 16210–16215.
- Billanes JD, Ma Z, Jørgensen BN. The bright green hospitals case studies of hospitals’ energy efficiency and flexibility in Philippines. In: 2018 8th International Conference on Power and Energy Systems (ICPES), Colombo, Sri Lanka, December 21–22, 2018. pp. 190–195.
- Schweber B. Are You Kidding—Harvest Power from Rust? [Online]. Electronicdesign.com. Electronic Design; 2019. Available at https://www.electronicdesign.com/technologies/power/article/21808506/are-you-kiddingharvest- power-from-rust
- Deutsche Telekom AG. The Smart Home Market: How Companies Can Profit. [Online]. Telekom.com. 2015. Available at https://www.telekom.com/en/media/media- information/detail/the-smart-home-market-how-companies-can-profit-362194
- Saritha S, Sarasvathi V. A study on application layer protocols used in IoT. In: 2017 International Conference on Circuits, Controls, and Communications (CCUBE), Bangalore, India, December 15– 16, 2017. pp. 155–159.
- Lazaroiu C, Roscia M. Smart district through IoT and blockchain. In: 2017 IEEE 6th International Conference on Renewable Energy Research and Applications (ICRERA), San Diego, CA, USA, November 5–8, 2017. pp. 454–461.
Journal of Software Engineering Tools & Technology Trends
| Volume | 12 |
| Issue | 02 |
| Received | 18/02/2025 |
| Accepted | 25/03/2025 |
| Published | 15/04/2025 |
| Publication Time | 56 Days |
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