Luis Cesar de Azevedo scite author profile

Luis Cesar de Azevedo

3Publications

21Citation Statements Received

80Citation Statements Given

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293

Affiliations

Universidade Federal do ABC

Publications

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Systematic Investigation of Error Distribution in Machine Learning Algorithms Applied to the Quantum-Chemistry QM9 Data Set Using the Bias and Variance Decomposition

Azevedo

Pinheiro

Quiles

et al. 2021

J. Chem. Inf. Model.

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Most machine learning applications in quantumchemistry (QC) data sets rely on a single statistical error parameter such as the mean square error (MSE) to evaluate their performance. However, this approach has limitations or can even yield incorrect interpretations. Here, we report a systematic investigation of the two components of the MSE, i.e., the bias and variance, using the QM9 data set. To this end, we experiment with three descriptors, namely (i) symmetry functions (SF, with two-body and three-body functions), (ii) many-body tensor representation (MBTR, with two-and three-body terms), and (iii) smooth overlap of atomic positions (SOAP), to evaluate the prediction process's performance using different numbers of molecules in training samples and the effect of bias and variance on the final MSE. Overall, low sample sizes are related to higher MSE. Moreover, the bias component strongly influences the larger MSEs. Furthermore, there is little agreement among molecules with higher errors (outliers) across different descriptors. However, there is a high prevalence among the outliers intersection set and the convex hull volume of geometric coordinates (VCH). According to the obtained results with the distribution of MSE (and its components bias and variance) and the appearance of outliers, it is suggested to use ensembles of models with a low bias to minimize the MSE, more specifically when using a small number of molecules in the training set. Article pubs.acs.org/jcim

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Effects of syndecan-4 gene silencing by micro RNA interference in anoikis resistant endothelial cells

Onyeisi

Filho

Mesquita

et al. 2020

The International Journal of Biochemistry & Cell Biology

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Leading Roles of Heparan Sulfate in Angiogenesis and Cancer

Lopes

Onyeisi

Meneghetti

et al. 2022

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