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A Temporal Type-2 Fuzzy System for Time-Dependent Explainable Artificial Intelligence

Mehrin Kiani, Javier Andreu-Pérez, Hani Hagras

2022IEEE Transactions on Artificial Intelligence19 citationsDOIOpen Access PDF

Abstract

Explainable artificial intelligence (XAI) focuses on transparent AI models and decisions, which are easy to understand, analyze, and augment by a nontechnical audience. Fuzzy logic systems (FLS)-based XAI provides an explainable framework while also modeling uncertainties in real-world environments. However, most real-life processes are not characterized by high uncertainty alone; they are also inherently time dependent, i.e., the processes are time variant. In this work, we present a novel temporal type-2 FLS-based approach for time-dependent XAI (TXAI) systems, which can account for the likelihood of a sample occurrence in the time domain by its the frequency. In the proposed temporal type-2 fuzzy sets (TT2FSs), a 4-D time-dependent membership function integrates the universe of discourse, its membership, and its frequency of occurrence across time. The TXAI system manifested better classification prowess in cross-validation tests, with a mean recall of 95.40% than a standard XAI system (based on nontemporal general type-2 fuzzy sets) that had a mean recall of 87.04%. TXAI also performed significantly better than most nonexplainable AI systems, with between 3.95% and 19.04% improvement gain in mean recall. In addition, TXAI can also outline the most likely time-dependent trajectories using the frequency and time dimensions embedded in the TXAI model; viz. given a rule at a determined time interval, what will be the next most likely rule at a subsequent time interval. In this regard, the proposed TXAI system can have profound implications for delineating the evolution of real-life time-dependent processes, such as behavioral or biological processes.

Topics & Concepts

Fuzzy logicComputer scienceArtificial intelligenceRecallRelation (database)Precision and recallFunction (biology)Construct (python library)Type (biology)Machine learningData miningEcologyPhilosophyBiologyEvolutionary biologyProgramming languageLinguisticsNeural Networks and ApplicationsFuzzy Logic and Control SystemsStock Market Forecasting Methods
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