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Learning Interpretable Rules for Scalable Data Representation and Classification

Zhuo Wang, Wei Zhang, Ning Liu, Jianyong Wang

2023IEEE Transactions on Pattern Analysis and Machine Intelligence16 citationsDOI

Abstract

Rule-based models, e.g., decision trees, are widely used in scenarios demanding high model interpretability for their transparent inner structures and good model expressivity. However, rule-based models are hard to optimize, especially on large data sets, due to their discrete parameters and structures. Ensemble methods and fuzzy/soft rules are commonly used to improve performance, but they sacrifice the model interpretability. To obtain both good scalability and interpretability, we propose a new classifier, named Rule-based Representation Learner (RRL), that automatically learns interpretable non-fuzzy rules for data representation and classification. To train the non-differentiable RRL effectively, we project it to a continuous space and propose a novel training method, called Gradient Grafting, that can directly optimize the discrete model using gradient descent. A novel design of logical activation functions is also devised to increase the scalability of RRL and enable it to discretize the continuous features end-to-end. Exhaustive experiments on ten small and four large data sets show that RRL outperforms the competitive interpretable approaches and can be easily adjusted to obtain a trade-off between classification accuracy and model complexity for different scenarios.

Topics & Concepts

InterpretabilityComputer scienceScalabilityArtificial intelligenceMachine learningData miningClassifier (UML)Fuzzy ruleGradient descentRepresentation (politics)DiscretizationFuzzy logicFuzzy setArtificial neural networkMathematicsDatabaseLawPoliticsPolitical scienceMathematical analysisExplainable Artificial Intelligence (XAI)Machine Learning and Data ClassificationData Stream Mining Techniques
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