Related papers: R^2VFL: A Robust Random Vector Functional Link Network with Huber-Weighted Framework

R^2VFL: A Robust Random Vector Functional Link Network with Huber-Weighted Framework

URL: http://arxiv.org/abs/2504.21069v1
Date: Tue, 29 Apr 2025 14:20:23 GMT
Title: R^2VFL: A Robust Random Vector Functional Link Network with Huber-Weighted Framework
Authors: Anuradha Kumari, Mushir Akhtar, P. N. Suganthan, M. Tanveer,
Abstract summary: Random vector functional link (RVFL) neural network has shown significant potential in overcoming the constraints of traditional artificial neural networks.<n>We propose a novel framework, R2VFL, RVFL with Huber weighting function and class probability, which enhances the model's robustness and adaptability.<n>We extensively evaluate the proposed models on 47 UCI datasets, and conduct rigorous statistical testing, which confirms the superiority of the proposed models.
Score: 0.5892638927736115
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The random vector functional link (RVFL) neural network has shown significant potential in overcoming the constraints of traditional artificial neural networks, such as excessive computation time and suboptimal solutions. However, RVFL faces challenges when dealing with noise and outliers, as it assumes all data samples contribute equally. To address this issue, we propose a novel robust framework, R2VFL, RVFL with Huber weighting function and class probability, which enhances the model's robustness and adaptability by effectively mitigating the impact of noise and outliers in the training data. The Huber weighting function reduces the influence of outliers, while the class probability mechanism assigns less weight to noisy data points, resulting in a more resilient model. We explore two distinct approaches for calculating class centers within the R2VFL framework: the simple average of all data points in each class and the median of each feature, the later providing a robust alternative by minimizing the effect of extreme values. These approaches give rise to two novel variants of the model-R2VFL-A and R2VFL-M. We extensively evaluate the proposed models on 47 UCI datasets, encompassing both binary and multiclass datasets, and conduct rigorous statistical testing, which confirms the superiority of the proposed models. Notably, the models also demonstrate exceptional performance in classifying EEG signals, highlighting their practical applicability in real-world biomedical domain.

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