xFODE+: Explainable Type-2 Fuzzy Additive ODEs for Uncertainty Quantification
Abstract
Recent advances in Deep Learning (DL) have boosted data-driven System Identification (SysID), but reliable use requires Uncertainty Quantification (UQ) alongside accurate predictions. Although UQ-capable models such as Fuzzy ODE (FODE) can produce Prediction Intervals (PIs), they offer limited interpretability. We introduce Explainable Type-2 Fuzzy Additive ODEs for UQ (xFODE+), an interpretable SysID model which produces PIs alongside point predictions while retaining physically meaningful incremental states. xFODE+ implements each fuzzy additive model with Interval Type-2 Fuzzy Logic Systems (IT2-FLSs) and constraints membership functions to the activation of two neighboring rules, limiting overlap and keeping inference locally transparent. The type-reduced sets produced by the IT2-FLSs are aggregated to construct the state update together with the PIs. The model is trained in a DL framework via a composite loss that jointly optimizes prediction accuracy and PI quality. Results on benchmark SysID datasets show that xFODE+ matches FODE in PI quality and achieves comparable accuracy, while providing interpretability.
Keywords
Cite
@article{arxiv.2604.14880,
title = {xFODE+: Explainable Type-2 Fuzzy Additive ODEs for Uncertainty Quantification},
author = {Ertugrul Kececi and Tufan Kumbasar},
journal= {arXiv preprint arXiv:2604.14880},
year = {2026}
}
Comments
in IEEE International Conference on Fuzzy Systems, 2026