Smart Building Demand Side Management Using Multi-Objective Archimedes Optimization Algorithms
This study presents an intelligent house energy management system that uses demand-side management load shifting to improve energy usage. This system optimizes home appliance management to moderate load demand, reducing power costs and peak-to-average ratio while prioritizing user comfort. Day-ahead...
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| Vydané v: | 2023 24th International Middle East Power System Conference (MEPCON) s. 1 - 6 |
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| Hlavní autori: | , , |
| Médium: | Konferenčný príspevok.. |
| Jazyk: | English |
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IEEE
19.12.2023
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| Abstract | This study presents an intelligent house energy management system that uses demand-side management load shifting to improve energy usage. This system optimizes home appliance management to moderate load demand, reducing power costs and peak-to-average ratio while prioritizing user comfort. Day-ahead and real-time load scheduling meet power customers' demands. Multi-objective Archimedes optimization techniques help distribute workload evenly across ON-peak and Off-peak hours and provide a fitness criterion. Additionally, home appliance coordination for real-time rescheduling is being proposed. Due to its similarities, the real-time rescheduling problem is called a knapsack problem and is solved using dynamic programming. This study also tests the proposed methodology in real-time pricing. Simulation results with a 95% confidence interval demonstrate the significance of the proposed optimization technique. |
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| AbstractList | This study presents an intelligent house energy management system that uses demand-side management load shifting to improve energy usage. This system optimizes home appliance management to moderate load demand, reducing power costs and peak-to-average ratio while prioritizing user comfort. Day-ahead and real-time load scheduling meet power customers' demands. Multi-objective Archimedes optimization techniques help distribute workload evenly across ON-peak and Off-peak hours and provide a fitness criterion. Additionally, home appliance coordination for real-time rescheduling is being proposed. Due to its similarities, the real-time rescheduling problem is called a knapsack problem and is solved using dynamic programming. This study also tests the proposed methodology in real-time pricing. Simulation results with a 95% confidence interval demonstrate the significance of the proposed optimization technique. |
| Author | Sedhom, Bishoy E. El-Afifi, Magda I. Eladl, Abdelfattah A. |
| Author_xml | – sequence: 1 givenname: Magda I. surname: El-Afifi fullname: El-Afifi, Magda I. email: Magdaebraheem15@gmail.com organization: Nile Higher Institute for Engineering and Technology,Dept. of Electronics and Communication Engineering,Mansoura,Egypt – sequence: 2 givenname: Bishoy E. surname: Sedhom fullname: Sedhom, Bishoy E. email: eng_bishoy90@mans.edu.eg organization: Mansoura University,Faculty of Engineering,Electrical Engineering Department,El-Mansoura,Egypt,35516 – sequence: 3 givenname: Abdelfattah A. surname: Eladl fullname: Eladl, Abdelfattah A. email: eladle7@mans.edu.eg organization: Mansoura University,Faculty of Engineering,Electrical Engineering Department,El-Mansoura,Egypt,35516 |
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| Snippet | This study presents an intelligent house energy management system that uses demand-side management load shifting to improve energy usage. This system optimizes... |
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| SubjectTerms | Archimedes optimization algorithm coordination Costs day-ahead and real-time scheduling Electricity Heuristic algorithms Home appliances Optimal scheduling Power system dynamics Pricing Smart homes |
| Title | Smart Building Demand Side Management Using Multi-Objective Archimedes Optimization Algorithms |
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