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Fei, C., Lee, F. C., & Li, Q. (2017). High-efficiency high-power-density LLC converter with an integrated planar matrix transformer for high-output current applications. IEEE Transactions on Industrial Electronics, 64(11), 9072-9082.Search in Google Scholar
Haran, K. S., Kalsi, S., Arndt, T., Karmaker, H., Badcock, R., Buckley, B., ... & Stautner, E. W. (2017). High power density superconducting rotating machines—development status and technology roadmap. Superconductor Science and Technology, 30(12), 123002.Search in Google Scholar
Dileep, G. J. R. E. (2020). A survey on smart grid technologies and applications. Renewable energy, 146, 2589-2625.Search in Google Scholar
Gils, H. C., Scholz, Y., Pregger, T., de Tena, D. L., & Heide, D. (2017). Integrated modelling of variable renewable energy-based power supply in Europe. Energy, 123, 173-188.Search in Google Scholar
Zhang, J., Xu, L., Shabunko, V., Tay, S. E. R., Sun, H., Lau, S. S. Y., & Reindl, T. (2019). Impact of urban block typology on building solar potential and energy use efficiency in tropical high-density city. Applied Energy, 240, 513-533.Search in Google Scholar
Deshpande, A., Chen, Y., Narayanasamy, B., Yuan, Z., Chen, C., & Luo, F. (2019). Design of a high-efficiency, high specific-power three-level T-type power electronics building block for aircraft electric-propulsion drives. IEEE Journal of Emerging and Selected Topics in Power Electronics, 8(1), 407-416.Search in Google Scholar
Li, X. B., Chen, N. K., Wang, X. P., & Sun, H. B. (2018). Phase‐Change Superlattice Materials toward Low Power Consumption and High Density Data Storage: Microscopic Picture, Working Principles, and Optimization. Advanced Functional Materials, 28(44), 1803380.Search in Google Scholar
Choi, C., Ashby, D. S., Butts, D. M., DeBlock, R. H., Wei, Q., Lau, J., & Dunn, B. (2020). Achieving high energy density and high power density with pseudocapacitive materials. Nature Reviews Materials, 5(1), 5-19.Search in Google Scholar
Chen, X., Nie, S., Guo, W., Fei, F., Su, W., Gu, W., & Cui, Z. (2019). Printable high‐aspect ratio and high‐resolution Cu grid flexible transparent conductive film with figure of merit over 80 000. Advanced Electronic Materials, 5(5), 1800991.Search in Google Scholar
An, K., Sun, P., Deng, Y., & Chen, A. (2024). A Large-Scale High-Gain Transparent Grid Array Antenna for Millimeter-Wave Communication. IEEE Antennas and Wireless Propagation Letters.Search in Google Scholar
Medjroubi, W., Müller, U. P., Scharf, M., Matke, C., & Kleinhans, D. (2017). Open data in power grid modelling: new approaches towards transparent grid models. Energy Reports, 3, 14-21.Search in Google Scholar
Faheem, M., Shah, S. B. H., Butt, R. A., Raza, B., Anwar, M., Ashraf, M. W., ... & Gungor, V. C. (2018). Smart grid communication and information technologies in the perspective of Industry 4.0: Opportunities and challenges. Computer Science Review, 30, 1-30.Search in Google Scholar
Wu, Y., Wu, Y., Guerrero, J. M., & Vasquez, J. C. (2021). Digitalization and decentralization driving transactive energy Internet: Key technologies and infrastructures. International Journal of Electrical Power & Energy Systems, 126, 106593.Search in Google Scholar
Gonzalez, I., Calderón, A. J., & Folgado, F. J. (2022). IoT real time system for monitoring lithium-ion battery long-term operation in microgrids. Journal of Energy Storage, 51, 104596.Search in Google Scholar
Thurner, L., Scheidler, A., Schäfer, F., Menke, J. H., Dollichon, J., Meier, F., ... & Braun, M. (2018). pandapower—an open-source python tool for convenient modeling, analysis, and optimization of electric power systems. IEEE Transactions on Power Systems, 33(6), 6510-6521.Search in Google Scholar
Ehsan, A., & Yang, Q. (2018). Optimal integration and planning of renewable distributed generation in the power distribution networks: A review of analytical techniques. Applied Energy, 210, 44-59.Search in Google Scholar
HA, M. P., Huy, P. D., & Ramachandaramurthy, V. K. (2017). A review of the optimal allocation of distributed generation: Objectives, constraints, methods, and algorithms. Renewable and Sustainable Energy Reviews, 75, 293-312.Search in Google Scholar
Mufana, M. W., & Ibrahim, A. (2022). Monitoring with communication technologies of the smart grid. IDOSR Journal of Applied Sciences, 7(1), 102-112.Search in Google Scholar
Sanchez-Hidalgo, M. A., & Cano, M. D. (2018). A survey on visual data representation for smart grids control and monitoring. Sustainable Energy, Grids and Networks, 16, 351-369.Search in Google Scholar
Chen, K., He, Z., Wang, S. X., Hu, J., Li, L., & He, J. (2018). Learning-based data analytics: Moving towards transparent power grids. CSEE Journal of Power and Energy Systems, 4(1), 67-82.Search in Google Scholar
Ponnusamy, V. K., Kasinathan, P., Madurai Elavarasan, R., Ramanathan, V., Anandan, R. K., Subramaniam, U., ... & Hossain, E. (2021). A comprehensive review on sustainable aspects of big data analytics for the smart grid. Sustainability, 13(23), 13322.Search in Google Scholar
Protopsaltis, A., Sarigiannidis, P., Margounakis, D., & Lytos, A. (2020, August). Data visualization in internet of things: tools, methodologies, and challenges. In Proceedings of the 15th international conference on availability, reliability and security (pp. 1-11).Search in Google Scholar
Baidya, S., Potdar, V., Ray, P. P., & Nandi, C. (2021). Reviewing the opportunities, challenges, and future directions for the digitalization of energy. Energy Research & Social Science, 81, 102243.Search in Google Scholar
Liu Xuan,Liu Meng & Yin Hong. (2024). Application of QPSO-BPSO in fault self-healing of distributed power distribution networks. E nergy Informatics(1).Search in Google Scholar
anoj Gupta Chitransh Shrivastava, M. (2015). Review of Forward & Backward Sweep Method for Load Flow Analysis of Radial Distribution System. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering(06),5595-5599.Search in Google Scholar
Zhang Xueqin,Huo Chengjun,Wang Xudong,Li Mengzan,Sun Xiaojun & Chen Jing. (2021). Research on Visual Monitoring System of Line Loss in Power Internet of Things and Power Distribution Network. Journal of Physics: Conference Series(1).Search in Google Scholar
ShirshenduGanguly,EllaHiesmayr & KyeongsikNam. (2024). Spectral large deviations of sparse random matrices. Journal of the London Mathematical Society(1).Search in Google Scholar
Nogueira B. F. & Ritto T. G. (2024). Random matrices applied to anti-symmetric operators. Journal of the Brazilian Society of Mechanical Sciences and Engineering(7).Search in Google Scholar
Luis Alfonso Menéndez García, Paulino José García Nieto,Esperanza García Gonzalo & Fernando Sánchez Lasheras. (2024). Time series analysis for COMEX platinum spot price forecasting using SVM, MARS, MLP, VARMA and ARIMA models: A case study. Resources Policy105148-.Search in Google Scholar
