Secure and Resilient Low-Rate Connectivity for Smart Energy Applications through Power Talk in DC Microgrids
Cedomir Stefanovic, Marko Angjelichinoski, Pietro Danzi, Petar, Popovski

TL;DR
This paper reviews power talk, a communication method for DC microgrids in smart energy applications, highlighting its security, resilience, and integration with power equipment to enhance grid control and optimization.
Contribution
It introduces power talk as a novel communication technique leveraging existing microgrid components for secure and resilient data exchange in smart energy systems.
Findings
Power talk offers high security and reliability.
It can serve as primary or auxiliary communication.
Outperforms standard communication solutions.
Abstract
The future smart grid is envisioned as a network of interconnected microgrids (MGs) - small-scale local power networks comprising generators, storage capacities and loads. MGs bring unprecedented modularity, efficiency, sustainability, and resilience to the power grid as a whole. Due to the high share of renewable generation, MGs require innovative concepts for control and optimization, giving rise to a novel class of smart energy applications, in which communications represent an integral part. In this paper, we review power talk, a communication technique specifically developed for direct current MGs, which exploits the communication potential residing within the MG power equipment. Depending on the smart energy application, power talk can be used either as a primary communication enabler, or an auxiliary communication system that provides resilient and secure operation. The key…
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Taxonomy
TopicsEnergy Harvesting in Wireless Networks · Smart Grid Security and Resilience · Caching and Content Delivery
