IEEE Access (Jan 2022)

Distributed Load Control Using Reliable Low-Data-Rate Power Line Communication

  • Adedayo O. Aderibole,
  • Kevin J. Kircher,
  • Steven B. Leeb,
  • Leslie K. Norford

DOI
https://doi.org/10.1109/ACCESS.2022.3172711
Journal volume & issue
Vol. 10
pp. 50242 – 50253

Abstract

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Many demand-response schemes fail because they inconvenience consumers or add unnecessary costs. When participating in a typical demand-response scheme, a consumer may be subjected to invasive control systems, communication systems, or data collection. These demand-response schemes can quickly lose their novelty and may annoy customers by curtailing availability of their appliances, such as electric water heaters or air conditioners. This paper demonstrates a self-organizing demand response scheme that uses power lines as a natural, “free” infrastructure for communication. The approach can shave peak demand substantially with no inconvenience to or attention from the user. Tailored signaling schemes and a custom application of low-data-rate power line communication (PLC) enable loads to reliably self-organize their demand. Field experiments with thermostatically-controlled loads in an actively occupied, 24-floor apartment building demonstrate the advantages of the low-data-rate PLC scheme for energy control.

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