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Exploring Unsupervised Anomaly Detection with Quantum Boltzmann Machines in Fraud Detection

Jonas Stein, Daniëlle Schuman, Magdalena Benkard, Thomas Holger, Wanja Sajko, Michael Kölle, Jonas Nüßlein, Leo Sünkel, Olivier Salomon, Claudia Linnhoff‐Popien

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Abstract

Anomaly detection in Endpoint Detection and Response (EDR) is a critical task in cybersecurity programs of large companies.With rapidly growing amounts of data and the omnipresence of zero-day attacks, manual and rule-based detection techniques are no longer eligible in practice.While classical machine learning approaches to this problem exist, they frequently show unsatisfactory performance in differentiating malicious from benign anomalies.A promising approach to attain superior generalization than currently employed machine learning techniques are quantum generative models.Allowing for the largest representation of data on available quantum hardware, we investigate Quantum Annealing based Quantum Boltzmann Machines (QBMs) for the given problem.We contribute the first fully unsupervised approach for the problem of anomaly detection using QBMs and evaluate its performance on an EDR inspired synthetic dataset.Our results indicate that QBMs can outperform their classical analog (i.e., Restricted Boltzmann Machines) in terms of result quality and training steps in special cases.When employing Quantum Annealers from D-Wave Systems, we conclude that either more accurate classical simulators or substantially more QPU time is needed to conduct the necessary hyperparameter optimization allowing to replicate our simulation results on quantum hardware.

Topics & Concepts

Anomaly detectionBoltzmann machineComputer scienceQuantumHyperparameterRestricted Boltzmann machineArtificial intelligenceMachine learningQuantum annealingQuantum computerArtificial neural networkPhysicsQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum-Dot Cellular AutomataAdvancements in Semiconductor Devices and Circuit Design