With a continuous rise in the global population, energy consumption and its associated environmental and economic costs are also increasing. One effective approach to manage these rising costs is by promoting the use of smart home appliances, leveraging Internet of Things (IoT) technologies to connect devices within a single network. This connectivity can enable users to monitor and control their real-time power consumption via home energy management systems (HEMS). Energy providers can, in turn, utilize HEMS to gauge residential demand response (DR) and adjust the power consumption of residential customers in response to grid demand.
Efforts to promote residential DR, such as by offering monetary incentives under the real-time pricing (RTP) model, have historically struggled to foster lasting behavioral change among consumers. This challenge stems from unidirectional electricity pricing mechanisms, which diminish consumer engagement in residential DR activities.
To address these issues, Professor Mun Kyeom Kim and Hyung Joon Kim, a doctoral candidate from Chung-Ang University, recently conducted a study published in the IEEE Internet of Things Journal . Their study, proposing a predictive home energy management system (PHEMS), was published online on March 27, 2024, and in print on July 15, 2024. Prof. Mun Kyeom Kim led the study, introducing a customized bidirectional real-time pricing (CBi-RTP) mechanism integrated with an advanced price forecasting model. These innovations provide compelling reasons for consumers to participate actively in residential DR efforts.
The CBi-RTP system empowers end-users by allowing them to influence their hourly RTPs through managing their transferred power and household appliance usage. Moreover, PHEMS incorporates a deep-learning-based forecasting model and optimization strategy to analyze spatial-temporal variations inherent in RTP implementations. This capability ensures robust and cost-effective operation for residential users by adapting to irregularities as they arise.
Experimental results from the study demonstrate that the PHEMS model not only enhances user comfort but also surpasses previous models in accuracy of forecasting, peak reduction, and cost savings. Despite its superior performance, the researchers acknowledge room for further development. Prof. Mun Kyeom Kim notes, " The main challenge with our predictive home energy management system lies in accurately determining the baseline load for calculating hourly shifted power. Future research will focus on enhancing the reliability of PHEMS through improved baseline load calculation methods tailored to specific end-users ."
***
Reference
Authors: 1 Hyung Joon Kim, 2 Mun Kyeom Kim
Title of original paper: New Customized Bidirectional Real-Time Pricing Mechanism for Demand Response in Predictive Home Energy Management System
Journal: IEEE Internet Of Things Journal
DOI: https://doi.org/10.1109/JIOT.2024.3381606
Affiliations:
1 Energy Efficiency Division, Korea Institute of Energy Research, South Korea
2 School of Energy Systems Engineering, Chung-Ang University, South Korea
About Chung-Ang University
Chung-Ang University is a private comprehensive research university located in Seoul, South Korea. It was started as a kindergarten in 1916 and attained university status in 1953. It is fully accredited by the Ministry of Education of Korea. Chung-Ang University conducts research activities under the slogan of “Justice and Truth.” Its new vision for completing 100 years is “The Global Creative Leader.” Chung-Ang University offers undergraduate, postgraduate, and doctoral programs, which encompass a law school, management program, and medical school; it has 16 undergraduate and graduate schools each. Chung-Ang University’s culture and arts programs are considered the best in Korea.
Website: https://neweng.cau.ac.kr/index.do
About Professor Mun-Kyeom Kim
Mun-Kyeom Kim received his Ph.D. degree in Electrical and Computer Engineering from Seoul National University. He is currently a Professor at the School of Energy System Engineering at Chung-Ang University in Korea. Over the past 15 years, he has authored 93 research articles, cited nearly 1,500 times. His research interests include AI-based smart power networks, low-carbon net-zero grid design, smart integrated AC/DC power systems, real-time energy management, big-data-based renewable energy forecasting, autonomous distributed energy systems, and multi-agent-based smart city intelligence.
Website: https://scholarworks.bwise.kr/cau/researcher-profile?ep=934
IEEE Internet of Things Journal
Computational simulation/modeling
Not applicable
New Customized Bidirectional Real-Time Pricing Mechanism for Demand Response in Predictive Home Energy Management System
15-Jul-2024
None