Title: Cyber-physical energy system simulation tool: framework for network co-simulation, GridLAB-D and ns-3

Authors: Brijendra Pratap Singh; Manoj Madhava Gore

Addresses: School of Computer Science Engineering and Technology, Bennett University, Greater Noida, India ' Department of Computer Science and Engineering, Motilal Nehru National Institute of Technology, Allahabad, India

Abstract: A cyber-physical energy system consists of information and communication technology, advanced power electronic devices, energy sources, and smart appliances. A simulator is required for research and to further enhancements in the cyber-physical energy system. The integration of a power system and information and communication technology raises the problem of integration of time-driven activity and event-driven activity. The power system simulators are time-driven, while the network communication simulators are event-driven. The Pacific Northwest National Laboratory, Richland, Washington developed a tool named 'framework for network co-simulation (FNCS)' which co-simulates ns-3 (a network simulator) and GridLAB-D (a power distribution system simulator). This work details the enhancement of the FNCS application program (which is integrated into ns-3) to incorporate the functionalities, namely: 1) internal real-time price calculation; 2) day-ahead charging schedule of a battery. The enhancement has been used for the development of cyber-physical application programs, namely, internal real-time pricing and battery charging schedules.

Keywords: cyber-physical energy systems; smart grid; ns-3; GridLAB-D; co-simulation; network simulation.

DOI: 10.1504/IJSPM.2022.128289

International Journal of Simulation and Process Modelling, 2022 Vol.18 No.4, pp.314 - 328

Received: 20 Nov 2021
Received in revised form: 27 Sep 2022
Accepted: 21 Oct 2022
Published online: 16 Jan 2023 *

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