Journal of Power Electronics & Power Systems (JoPEPS)

An intelligently connected technology known as a "smart grid" makes it possible to fully automate and operate a centralized grid in real time. The integration of electrical vehicles, storage devices, and renewable energy sources, as well as ancillary services, was all supported by this self-healing grid. Advanced metering infrastructure, such as smart substations, superconducting cables, intelligent integrated communication technologies, etc., are added to this technology. This paper provides a thorough analysis of the smart grid's design, attributes, and technological advancements. It also discusses the practical need of creating this technology for the distributed power generation and Indian Power System Network.

https://www.elprocus.com/overview-smart-grid-technology-operation-application-existing-power-system/

Osama Majeed Butt, Muhammad Zulqarnain , Tallal Majeed Butt “Recent advancement in smart grid technology: Future prospects in the electrical power network” by Elsevier Ain Shams Engineering Journal 12 (2021) 687–695.

Wesley da Silva Costa, Willian Garcia Vieira dos Santos, Helder Roberto de Oliveira Rocha “Power Line Communication based SmartPlug Prototype for Power Consumption Monitoring in Smart Homes” IEEE Latin America Transactions, Page(s): 1849 - 1857 Volume: 19, Year 2021

Stefano Giacomuzzi, Marius Langwasser, Giovanni De Carne, Giuseppe Buja, Marco Liserre “Smart Transformer-based Medium Voltage Grid Support by Means of Active Power Control” Ces Transactions on Electrical Machines And Systems, Vol. 4, No. 4, December 2020

Rosario Morello, Claudio De Capua, Gaetano Fulco, Subhas Chandra Mukhopadhyay “A Smart Power Meter to Monitor Energy Flow in Smart Grids: The Role of Advanced Sensing and IoT in the Electric Grid of the Future” IEEE Sensors Journal, Page(s): 7828 - 7837 Vol: 17, Issue: 23, Year 2017

Aaron J. Wilson; Donald R. Reising; Robert W. Hay; Ray C. Johnson; Abdelrahman A. Karrar; T. Daniel Loveless “Automated Identification of Electrical Disturbance Waveforms Within an Operational Smart Power Grid” IEEE Transactions on Smart Grid, Page(s): 4380 – 4389 Vol: 11, Issue: 5, Year 2020

Roger N. Anderson Reza Ghafurian, Hamid Gharavi “smart Grid: The future of electrical energy System” IEEE Conference on June Year 2010

Anuradha Annaswamy “Smart Grid Research: Control Systems - IEEE Vision for Smart Grid Control: 2030 and Beyond Roadmap”DOI: 10.1109/IEEESTD.2013.6648362 , Year 2013

M. Karimi, M. Banejad, H. Hassanpour and A. Moeini, "Classification of power system faults using ANN classifiers", Proc. Conf. IPEC, pp. 505-508, 2010.

Mahmood, A., M. Aamir, and M.Anis, “Design and Implementation of AMR Smart Grid System”, 2008 IEEE Electrical Power & Energy Conference, 2008.

Garrity, T., “Innovation and Trends forFuture Electric Power Systems”, IEEE Power and Energy, 38-45, March-April, 2008.

https://www.nsgm.gov.in/en/smart-grid

T. Guillod, F. Krismer, and J. W. Kolar, “Protection of MV converters in the grid: The case of MV/LV solid-state transformers,” IEEE J. Emerg. Sel. Topics Power Electron., vol. 5, no. 1, pp. 393–408, Mar. 2017.

L. F. Costa, G. D. Carne, G. Buticchi, and M. Liserre, “The Smart Transformer: A solid-state transformer tailored to provide ancillary services to the distribution grid,” IEEE Power Electron. Mag., vol. 4, no. 2, pp. 56-67, Jun. 2017.

Mohammad Tayyab, Adil Sarwar, Shadab Murshid, Mohd Tariq, Ahmed Al-Durra, Farhad Ilahi Bakhsh. Active and reactive power control of grid-connected single-phase asymmetrical eleven-level inverter. IET Generation, Transmission & Distribution. 2022; 17(3): 632-644.