اکتشاف و پردازش هوشمند دانش

اکتشاف و پردازش هوشمند دانش

A novel recommender system for energy management based on fuzzy in smart home

نوع مقاله : مقاله پژوهشی

نویسندگان
مونا کردستانی شرق 1
حمید طباطبایی 2
مریم میرحسینی 3
1 گروه مهندسی کامپیوتر
2 گروه هوش مصنوعی و علم داده، مرکز تحقیقات نوآوری های مالی هوشمند، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران. گروه مهندسی کامپیوتر، واحد مشهد، دانشگاه آزاد اسلامی، مشهد، ایران.
3 مدرس اداره کل آموزش و پرورش خراسان رضوی
10.30508/kdip.2024.478441.1112
چکیده
Smart energy management systems in smart cities are efficient tools for customers to optimize electrical equipment. These systems in residential homes and proper energy management increased reliability, increased user comfort, and reduced subscriber costs. This article uses smart home shiftable equipment with multi-objective evolutionary algorithms according to the operation constraints, customer welfare, demand, and time cost of electricity for proper time management. Therefore, the NSGA-II and MOGOA multi-objective algorithms were used to simultaneously improve electricity consumption costs and the average daily load of subscribers. The proposed algorithm for equipment management is derived from the hybrid NSGA-II and Grasshopper Optimization Algorithm, abbreviated MOGOA. In addition, smart home solar panels and energy storage systems were used as a fuzzy recommender system for a smart home lighting system for optimal management of the resulting energy. The results indicated an acceptable reduction in costs and peak to average ratio (PAR), and also the use of fuzzy recommender for solar energy helped decrease electricity costs.
کلیدواژه‌ها
smart home
energy management
multi-objective optimization
fuzzy recommender
renewable energy
NSGAII
Grasshopper algorithm optimization
1.      Ahmad, A., Javaid, N., Alrajeh, N., Khan, Z. A., Qasim, U., & Khan, A. (2015). A modified feature selection and artificial neural network-based day-ahead load forecasting model for a smart grid. Applied Sciences5(4), 1756-1772.
2.      Alhasnawi, B. N., Jasim, B. H., Rahman, Z. A. S., & Siano, P. (2021). A novel robust smart energy management and demand reduction for smart homes based on internet of energy. Sensors21(14), 4756.
3.      Arora, S., & Anand, P. (2019). Chaotic grasshopper optimization algorithm for global optimization. Neural Computing and Applications31, 4385-4405.
4.      Del Rio, D. D. F., Sovacool, B. K., & Griffiths, S. (2021). Culture, energy and climate sustainability, and smart home technologies: A mixed methods comparison of four countries. Energy and Climate Change2, 100035.
5.      Dethlefs, T., Preisler, T., & Renz, W. (2015, February). Ant-colony based self-optimization for demand-side-management. In Conference: SmartER Europe, Essen.
6.      Eissa, M. M. (2018). First time real time incentive demand response program in smart grid with “i-Energy” management system with different resources. Applied energy212, 607-621.
7.      Guo, Y., Pan, M., Fang, Y., & Khargonekar, P. P. (2013). Decentralized coordination of energy utilization for residential households in the smart grid. IEEE transactions on smart grid4(3), 1341-1350.
8.      Han, D., Sun, W., & Fan, X. (2018). Dynamic energy management in smart grid: A fast randomized first-order optimization algorithm. International Journal of Electrical Power & Energy Systems94, 179-187.
9.      Khalid, R., Javaid, N., Rahim, M. H., Aslam, S., & Sher, A. (2019). Fuzzy energy management controller and scheduler for smart homes. Sustainable Computing: Informatics and Systems21, 103-118.
10.  Khan, M. A., Javaid, N., Mahmood, A., Khan, Z. A., & Alrajeh, N. (2015). A generic demandside management model for smart grid. International Journal of Energy Research39(7), 954-964.
11.  Kishor, A., Yadav, S. P., & Kumar, S. (2009). Interactive fuzzy multiobjective reliability optimization using NSGA-II. Opsearch46(2), 214-224.
12.  Logenthiran, T., Srinivasan, D., & Shun, T. Z. (2012). Demand side management in smart grid using heuristic optimization. IEEE transactions on smart grid3(3), 1244-1252.
13.  Mary, G. A., & Rajarajeswari, R. (2014). Smart grid cost optimization using genetic algorithm. Int. J. Res. Eng. Technol3(07), 282-287.
14.  Mehrshad, M., Tafti, A. D., & Effatnejad, R. (2013). Demandside Management in the Smart Grid Based on Energy Consumption Scheduling by NSGAII. International Journal of Engineering Practical Research2(4), 197-200.
15.  Meng, F., Zeng, X. J., Zhang, Y., Dent, C. J., & Gong, D. (2018). An integrated optimization+ learning approach to optimal dynamic pricing for the retailer with multi-type customers in smart grids. Information Sciences448, 215-232.
16.  Miao, H., Huang, X., & Chen, G. (2012). A genetic evolutionary task scheduling method for energy efficiency in smart homes. International Review of Electrical Engineering (IREE)7(5), 5897-5904.
17.  Panjaitan, S. D., & Hartoyo, A. (2011). A lighting control system in buildings based on fuzzy logic. TELKOMNIKA (Telecommunication Computing Electronics and Control)9(3), 423-432.
18.  Rahim, S., Javaid, N., Ahmad, A., Khan, S. A., Khan, Z. A., Alrajeh, N., & Qasim, U. (2016). Exploiting heuristic algorithms to efficiently utilize energy management controllers with renewable energy sources. Energy and Buildings129, 452-470.
19.  Rasheed, M. B., Javaid, N., Awais, M., Khan, Z. A., Qasim, U., Alrajeh, N., ... & Javaid, Q. (2016). Real time information based energy management using customer preferences and dynamic pricing in smart homes. Energies9(7), 542.
20.  Saremi, S., Mirjalili, S., & Lewis, A. (2017). Grasshopper optimisation algorithm: theory and application. Advances in engineering software105, 30-47.
21.  Sharifi, A. H., & Maghouli, P. (2019). Energy management of smart homes equipped with energy storage systems considering the PAR index based on real-time pricing. Sustainable cities and society45, 579-587.
22.  Sharma, S., Dua, A., Singh, M., Kumar, N., & Prakash, S. (2018). Fuzzy rough set based energy management system for self-sustainable smart city. Renewable and Sustainable Energy Reviews82, 3633-3644.
23.  Xiong, G., Chen, C., Kishore, S., & Yener, A. (2011, January). Smart (in-home) power scheduling for demand response on the smart grid. In ISGT 2011 (pp. 1-7). IEEE.
24.  Xiong, J., Tan, X., Yang, K. W., & Chen, Y. W. (2013). Fuzzy group decision making for multiobjective problems: tradeoff between consensus and robustness. Journal of Applied Mathematics2013(1), 657978.
25.  Zhao, Z., Lee, W. C., Shin, Y., & Song, K. B. (2013). An optimal power scheduling method for demand response in home energy management system. IEEE transactions on smart grid4(3), 1391-1400.
 
اکتشاف و پردازش هوشمند دانش
دوره 4، شماره 13
تابستان 1403
صفحه 74-93