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High-dimensional and permutation invariant anomaly detection

V. M. Mikuni, Benjamin Nachman

2024SciPost Physics22 citationsDOIOpen Access PDF

Abstract

Methods for anomaly detection of new physics processes are often limited to low-dimensional spaces due to the difficulty of learning high-dimensional probability densities. Particularly at the constituent level, incorporating desirable properties such as permutation invariance and variable-length inputs becomes difficult within popular density estimation methods. In this work, we introduce a permutation-invariant density estimator for particle physics data based on diffusion models, specifically designed to handle variable-length inputs. We demonstrate the efficacy of our methodology by utilizing the learned density as a permutation-invariant anomaly detection score, effectively identifying jets with low likelihood under the background-only hypothesis. To validate our density estimation method, we investigate the ratio of learned densities and compare to those obtained by a supervised classification algorithm.

Topics & Concepts

Invariant (physics)Anomaly detectionPermutation (music)EstimatorResamplingMathematicsDensity estimationAnomaly (physics)Artificial intelligencePattern recognition (psychology)AlgorithmComputer scienceApplied mathematicsStatisticsPhysicsMathematical physicsCondensed matter physicsAcousticsParticle physics theoretical and experimental studiesNeutrino Physics ResearchGaussian Processes and Bayesian Inference
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