Compact Rule-Based Classifier Learning via Gradient Descent
Abstract
Rule-based models are essential for high-stakes decision-making due to their transparency and interpretability, but their discrete nature creates challenges for optimization and scalability. In this work, we present the Fuzzy Rule-based Reasoner (FRR), a novel gradient-based rule learning system that supports strict user constraints over rule-based complexity while achieving competitive performance. To maximize interpretability, the FRR uses semantically meaningful fuzzy logic partitions, unattainable with existing neuro-fuzzy approaches, and sufficient (single-rule) decision-making, which avoids the combinatorial complexity of additive rule ensembles. Through extensive evaluation across 40 datasets, FRR demonstrates: (1) superior performance to traditional rule-based methods (e.g., 5\% average accuracy over RIPPER); (2) comparable accuracy to tree-based models (e.g., CART) using rule bases 90\% more compact; and (3) achieves 96\% of the accuracy of state-of-the-art additive rule-based models while using only sufficient rules and requiring only 3\% of their rule base size.
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