Erküçük, SerhatKhwaja, Ahmed S.Erkucuk, SerhatAnpalagan, AlaganVenkatesh, Bala2023-10-192023-10-19202232169-3536https://doi.org/10.1109/ACCESS.2022.3157390https://hdl.handle.net/20.500.12469/5267In this paper, we compare and analyze light-weight approaches for instantaneous smart meter (SM) data obfuscation from a group of consumers. In the literature, the common approach is to use additive Gaussian noise based SM data obfuscation. In order to investigate the effects of different approaches, we consider Gaussian, Rayleigh, generalized Gaussian and chi-square distributions to achieve either additive or multiplicative data obfuscation. For each type of obfuscation approach, we calculate the required parameters to achieve obfuscation such that 50% of the obfuscated data fall outside an interval equalling twice the mean of the instantaneous SM measurements. We also calculate the minimum number of SMs required to estimate the mean of the actual SM measurements, such that the estimate varies within only 0.5% of the actual mean with a 99.5% probability. Simulation results are used to verify the calculations, and it is shown that multiplicative Rayleigh and generalized Gaussian noise require the least number of SMs, which is 90% less than the traditional approach of additive Gaussian noise-based SM data obfuscation.eninfo:eu-repo/semantics/openAccessDifferential PrivacyData AggregationSchemesAdditivesSecurePrivacyData privacySmart metersUsageGaussian noiseGaussian distributionDifferential PrivacyLicensesData AggregationSmart meterSchemesdata obfuscationSecureadditive noiseUsagemultiplicative noiseEvaluation of Noise Distributions for Additive and Multiplicative Smart Meter Data ObfuscationArticle277172773510WOS:00076995670000110.1109/ACCESS.2022.31573902-s2.0-85126295736Q2Q1