Ruben Alvarez-Gonzalez scite author profile

Ruben Alvarez-Gonzalez

3Publications

0Citation Statements Received

86Citation Statements Given

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Affiliations

Center for Research and Advanced Studies of the National Polytechnic Institute

Publications

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Deep Learning Architecture Reduction for fMRI Data

Alvarez-Gonzalez

Méndez-Vázquez

2022

Brain Sciences

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In recent years, deep learning models have demonstrated an inherently better ability to tackle non-linear classification tasks, due to advances in deep learning architectures. However, much remains to be achieved, especially in designing deep convolutional neural network (CNN) configurations. The number of hyper-parameters that need to be optimized to achieve accuracy in classification problems increases with every layer used, and the selection of kernels in each CNN layer has an impact on the overall CNN performance in the training stage, as well as in the classification process. When a popular classifier fails to perform acceptably in practical applications, it may be due to deficiencies in the algorithm and data processing. Thus, understanding the feature extraction process provides insights to help optimize pre-trained architectures, better generalize the models, and obtain the context of each layer’s features. In this work, we aim to improve feature extraction through the use of a texture amortization map (TAM). An algorithm was developed to obtain characteristics from the filters amortizing the filter’s effect depending on the texture of the neighboring pixels. From the initial algorithm, a novel geometric classification score (GCS) was developed, in order to obtain a measure that indicates the effect of one class on another in a classification problem, in terms of the complexity of the learnability in every layer of the deep learning architecture. For this, we assume that all the data transformations in the inner layers still belong to a Euclidean space. In this scenario, we can evaluate which layers provide the best transformations in a CNN, allowing us to reduce the weights of the deep learning architecture using the geometric hypothesis.

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Material Classification Using Non-supervised Segmentation and Transfer Learning

Alvarez-Gonzalez

Pena-Llamas

Méndez-Vázquez

2021

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ERP Detector using Texture Filters and Tucker Decomposition

Alvarez-Gonzalez

Méndez-Vázquez

2020

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