@article{349cb8859f484fe2a4f172ff3c34cdf4,
title = "Modeling implicit bias with fuzzy cognitive maps",
abstract = "This paper presents a Fuzzy Cognitive Map model to quantify implicit bias in structured datasets where features can be numeric or discrete. In our proposal, problem features are mapped to neural concepts that are initially activated by experts when running what-if simulations, whereas weights connecting the neural concepts represent absolute correlation/association patterns between features. In addition, we introduce a new reasoning mechanism equipped with a normalization-like transfer function that prevents neurons from saturating. Another advantage of this new reasoning mechanism is that it can easily be controlled by regulating nonlinearity when updating neurons{\textquoteright} activation values in each iteration. Finally, we study the convergence of our model and derive analytical conditions concerning the existence and unicity of fixed-point attractors.",
keywords = "Fairness, Implicit bias, Fuzzy cognitive maps, Convergence analysis",
author = "Gonzalo N{\'a}poles and Isel Grau and Leonardo Concepci{\'o}n and Koumeri, {Lisa Koutsoviti} and Papa, {Jo{\~a}o Paulo}",
year = "2022",
month = apr,
day = "7",
doi = "10.1016/j.neucom.2022.01.070",
language = "English",
volume = "481",
pages = "33--45",
journal = "Neurocomputing",
issn = "0925-2312",
publisher = "Elsevier",
}