@misc{c3a875ee2af843dba033fc87c576a60b,
title = "Study of Communication Boundaries of Primal-Dual-Based Distributed Energy Resource Management Systems (DERMS)",
abstract = "As the coordination of distributed energy resources becomes more necessary to provide grid services through a distributed energy resource management system (DERMS), studying the communication requirements for successful real-world, low-cost implementation becomes increasingly important. Specifically, this paper studies the necessary communication time resolutions between the different system components for a primal-dual-based DERMS, a highly developed DERMS framework. We design a metric to evaluate the functionality of a DERMS with respect to providing grid services. Using numerical simulations based on a real-world feeder in Colorado, we show that the upper bound on the time resolutions is on the order of minutes instead of the previously assumed order of seconds.",
keywords = "communication time resolution, distributed energy resources management system, real-time optimal power flow, virtual power plant",
author = "Joshua Comden and Jing Wang and Andrey Bernstein",
year = "2023",
language = "American English",
series = "Presented at the IEEE Innovative Smart Grid Technologies (ISGT) North American Conference, 16-19 January 2023, Washington, D.C.",
type = "Other",
}