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Incremental permutation feature importance (iPFI): towards online explanations on data streams

Fabian Fumagalli, Maximilian Muschalik, Eyke Hüllermeier, Barbara Hammer

2023Machine Learning47 citationsDOIOpen Access PDF

Abstract

Abstract Explainable artificial intelligence has mainly focused on static learning scenarios so far. We are interested in dynamic scenarios where data is sampled progressively, and learning is done in an incremental rather than a batch mode. We seek efficient incremental algorithms for computing feature importance (FI). Permutation feature importance (PFI) is a well-established model-agnostic measure to obtain global FI based on feature marginalization of absent features. We propose an efficient, model-agnostic algorithm called iPFI to estimate this measure incrementally and under dynamic modeling conditions including concept drift. We prove theoretical guarantees on the approximation quality in terms of expectation and variance. To validate our theoretical findings and the efficacy of our approaches in incremental scenarios dealing with streaming data rather than traditional batch settings, we conduct multiple experimental studies on benchmark data with and without concept drift.

Topics & Concepts

Feature (linguistics)Computer scienceBenchmark (surveying)Permutation (music)Concept driftData stream miningStreaming dataVariance (accounting)Machine learningArtificial intelligenceData miningMeasure (data warehouse)Quality (philosophy)AlgorithmPhilosophyAcousticsAccountingBusinessLinguisticsGeodesyGeographyEpistemologyPhysicsData Stream Mining TechniquesAdvanced Bandit Algorithms ResearchMachine Learning and Data Classification
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