Litcius/Paper detail

Privacy-Preserving Power Flow Analysis via Secure Multi-Party Computation

Jonas von der Heyden, Nils Schlüter, Philipp Binfet, Martin Asman, Markus Zdrallek, Tibor Jager, Moritz Schulze Darup

2024IEEE Transactions on Smart Grid12 citationsDOIOpen Access PDF

Abstract

Smart grids feature a bidirectional flow of electricity and data, enhancing flexibility, efficiency, and reliability in increasingly volatile energy grids. However, data from smart meters can reveal sensitive private information. Consequently, the adoption of smart meters is often restricted via legal means and hampered by limited user acceptance. Since metering data is beneficial for fault-free grid operation, power management, and resource allocation, applying privacy-preserving techniques to smart metering data is an important research problem. This work addresses this by using secure multi-party computation (SMPC), allowing multiple parties to jointly evaluate functions of their private inputs without revealing the latter. Concretely, we show how to perform power flow analysis on cryptographically hidden prosumer data. More precisely, we present a tailored solution to the power flow problem building on an SMPC implementation of Newton’s method. We analyze the security of our approach in the universal composability framework and provide benchmarks for various grid types, threat models, and solvers. Our results indicate that secure multi-party computation can be able to alleviate privacy issues in smart grids in certain applications.

Topics & Concepts

Computer scienceSecure multi-party computationComputationFlow (mathematics)Power analysisComputer securityPower flowInformation privacyPower (physics)CryptographyElectric power systemAlgorithmMathematicsPhysicsQuantum mechanicsGeometryLow-power high-performance VLSI designSmart Grid Security and ResilienceElectromagnetic Compatibility and Noise Suppression
Privacy-Preserving Power Flow Analysis via Secure Multi-Party Computation | Litcius