Uncertainty-aware Evaluation of Time-Series Classification for Online Handwriting Recognition with Domain Shift
Klaß, Andreas, Lorenz, Sven M., Lauer-Schmaltz, Martin W., Rügamer, David, Bischl, Bernd, Mutschler, Christopher, Ott, Felix
–arXiv.org Artificial Intelligence
For many applications, analyzing the uncertainty of a machine learning model is indispensable. While research of uncertainty quantification (UQ) techniques is very advanced for computer vision applications, UQ methods for spatio-temporal data are less studied. In this paper, we focus on models for online handwriting recognition, one particular type of spatio-temporal data. The data is observed from a sensor-enhanced pen with the goal to classify written characters. We conduct a broad evaluation of aleatoric (data) and epistemic (model) UQ based on two prominent techniques for Bayesian inference, Stochastic Weight Averaging-Gaussian (SWAG) and Deep Ensembles. Next to a better understanding of the model, UQ techniques can detect out-of-distribution data and domain shifts when combining right-handed and left-handed writers (an underrepresented group).
arXiv.org Artificial Intelligence
Jun-17-2022
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