2017 IEEE Trustcom/BigDataSE/Icess 2017
DOI: 10.1109/trustcom/bigdatase/icess.2017.276
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Assessing the Privacy Cost in Centralized Event-Based Demand Response for Microgrids

Abstract: Demand response (DR) programs have emerged as a potential key enabling ingredient in the context of smart grid (SG). Nevertheless, the rising concerns over privacy issues raised by customers subscribed to these programs constitute a major threat towards their effective deployment and utilization. This has driven extensive research to resolve the hindrance confronted, resulting in a number of methods being proposed for preserving customers' privacy. While these methods provide stringent privacy guarantees, only… Show more

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Cited by 9 publications
(5 citation statements)
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“…2 as well as in Table I in the Appendix. As for the latter, the feeder is a portion of a 12.47 kV radial system, practically deployed in Canada, whose particulars can be consulted in [50]. For both MGs, the time-varying generation capacity (C t ) t∈T is sampled according to a Bernoulli process.…”
Section: A Simulation Setup and Scenariosmentioning
confidence: 99%
“…2 as well as in Table I in the Appendix. As for the latter, the feeder is a portion of a 12.47 kV radial system, practically deployed in Canada, whose particulars can be consulted in [50]. For both MGs, the time-varying generation capacity (C t ) t∈T is sampled according to a Bernoulli process.…”
Section: A Simulation Setup and Scenariosmentioning
confidence: 99%
“…Recent work demonstrates convergence for control of optimal power flow according to a differentially private projected subgradient method [22]. As a different line of work, Karapetyan et al [23] study the trade-off between privacy and fidelity in the context of micro-grid based on a privacy-preserving demand response optimization problem. Zhao et al [24] investigate the charging/discharging of household batteries in the differential privacy context to address privacy concern of smart meters and Eibl et al [25] study the use case of privacy preserving electric load forecasting.…”
Section: Related Workmentioning
confidence: 99%
“…Karapetyan et al [9] empirically quantify the trade-off between privacy and utility in demand response systems. The authors analyze the effects of a simple Laplace mechanism on the objective value of the demand response optimization problem.…”
Section: Related Workmentioning
confidence: 99%