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Learning from Multiple Classifier Systems: Perspectives for Improving Decision Making of QSAR Models in Medicinal Chemistry

The Hai/V Pham and Hai Nam Nguyen and Viet Nga Doan and Thanh Hai Dang and Karel Dieguez-Santana and Yovani Marrero-Poncee and Juan/A Castillo-Garit and Gerardo/M Casanola-Martin and Thi Thu Huong Le (2017) Learning from Multiple Classifier Systems: Perspectives for Improving Decision Making of QSAR Models in Medicinal Chemistry. Current Topics in Medicinal Chemistry, 18 . pp. 1-20. ISSN 1873-4294

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Official URL: https://www.ncbi.nlm.nih.gov/pubmed/29231145

Abstract

Quantitative Structure - Activity Relationship (QSAR) modeling has been widely used in medicinal chemistry and computational toxicology for many years. Today, as the amount of data on chemicals is increasing dramatically, QSAR methods have become pivotal for the purpose of handling the data, identifying a decision, and gathering useful information from data processing. The advances in this field have paved a way for numerous alternative approaches that require deep mathematics in order to enhance the learning capability of QSAR models. One of these directions is the use of Multiple Classifier Systems (MCSs) that potentially provide a means to exploit the advantages of manifold learning through decomposition frameworks, while improving generalization and predictive performance. In the present paper, we present MCS as a next generation of QSAR modeling techniques and discuss the chance to mining the vast number of models already published in the literature. We systematically revisited the theoretical frameworks of MCS as well as current advances in MCS application for QSAR practice. Furthermore, we illustrate our idea by describing ensemble approaches on modeling histone deacetylase (HDACs) inhibitors. We expect that our analysis would contribute to a better understanding about MCS application and its future perspectives for improving the decision making of QSAR models.

Item Type:Article
Subjects:Information Technology (IT)
ISI-indexed journals
Divisions:Faculty of Information Technology (FIT)
ID Code:2903
Deposited By: Thanh Hải Đặng
Deposited On:05 Jan 2018 04:08
Last Modified:05 Jan 2018 04:08

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