ACO-Based Bayesian Network Ensembles for the Hierarchical Classification of Ageing-Related Proteins

Salama, Khalid M.; Freitas, Alex A.

doi:10.1007/978-3-642-37189-9_8

Cited by 5 publications

(4 citation statements)

References 23 publications

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“…We recommend to apply these new methods to hierarchical data sets. We also recommend to employ the ensemble methods proposed in [16,3] on Ant-Miner variations to further improve the ACO based classification.…”

Section: Discussionmentioning

confidence: 99%

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eAnt-Miner : An Ensemble Ant-Miner to Improve the ACO Classification

Chennupati

2014

Preprint

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Ant Colony Optimization (ACO) has been applied in supervised learning in order to induce classification rules as well as decision trees, named Ant-Miners. Although these are competitive classifiers, the stability of these classifiers is an important concern that owes to their stochastic nature. In this paper, to address this issue, an acclaimed machine learning technique named, ensemble of classifiers is applied, where an ACO classifier is used as a base classifier to prepare the ensemble. The main trade-off is, the predictions in the new approach are determined by discovering a group of models as opposed to the single model classification. In essence, we prepare multiple models from the randomly replaced samples of training data from which, a unique model is prepared by aggregating the models to test the unseen data points. The main objective of this new approach is to increase the stability of the Ant-Miner results there by improving the performance of ACO classification. We found that the ensemble Ant-Miners significantly improved the stability by reducing the classification error on unseen data.

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Section: Discussionmentioning

confidence: 99%

“…Khalid & Freitas [16] proposed a new ACO based Bayesian network ensembles with a new ABC-Miner [15] as the base classifier, in order to predict the ageing related protein functions in bioinformatics. They identified the importance of human ageing related protein function prediction as a major application of hierarchical classification.…”

Section: Aco Ensemblesmentioning

confidence: 99%

eAnt-Miner : An Ensemble Ant-Miner to Improve the ACO Classification

Chennupati

2014

Preprint

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“…Salama and Freitas [19] have already compiled an ageingrelated dataset for the hierarchical classification of ageingrelated proteins. We build upon their work by updating and expanding the dataset to contain more species and the features used in [22], which focused on the hierarchical classification of generic (not specifically ageing-related) proteins functions.…”

Section: Creation Of the Datasets Of Ageing-related Genesmentioning

confidence: 99%

“…We call these overexpressed GO terms ageing-related GO terms, as they occur significantly more often than statistically expected by chance in our datasets of ageing-related proteins. Numeric Alignment-Independent Features: We extracted the following numeric features described in [19,22]: "Amino Acid Composition", "Composition", "Transition", "Distribution", and "Z-Values". Furthermore, all datasets (with all types of features) have two features: "Sequence Length" (the amino acid sequence length), and "Molecular Weight" (the molecular weight of the protein).…”

Section: Creation Of the Datasets Of Ageing-related Genesmentioning

confidence: 99%

A Novel Extended Hierarchical Dependence Network Method Based on Non-hierarchical Predictive Classes and Applications to Ageing-Related Data

Fabris

Freitas

2015

2015 IEEE 27th International Conference on Tools With Artificial Intelligence (ICTAI)

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We propose a novel algorithm for hierarchical classification, the Hierarchical Dependence Network based on non-Hierarchical Predictive Classes (HDN-nHPC) algorithm. HDN-nHPC uses relationships among predictive classes that are not descendants or ancestors of each other to improve classification performance and, at the same time, provide insights to non-obvious predictive class relationships. To test our algorithm and baselines, we have used hierarchical ageingrelated datasets where the classes are terms in the Gene Ontology. We have concluded, based on our experiments, that using non-hierarchical predictive class relationships improves the performance of the classification algorithm and that, considering one out of three accuracy measures, the HDNnHPC is statistically significantly better than the other three algorithms that we have tested, while no statistical significant differences were found on the other two measures.

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New KEGG pathway-based interpretable features for classifying ageing-related mouse proteins

Fabris

Freitas

2016

Bioinformatics

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Motivation: The incidence of ageing-related diseases has been constantly increasing in the last decades, raising the need for creating effective methods to analyze ageing-related protein data. These methods should have high predictive accuracy and be easily interpretable by ageing experts. 15 To enable this, one needs interpretable classification models (supervised machine learning) and features with rich biological meaning. In this paper we propose two interpretable feature types based on Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways and compare them with traditional feature types in hierarchical classification (a more challenging classification task regarding predictive performance) and binary classification (a classification task producing easier to inter-20 pret classification models). As far as we know, this work is the first to: (i) explore the potential of the KEGG pathway data in the hierarchical classification setting, (i) use the graph structure of KEGG pathways to create a feature type that quantifies the influence of a current protein on another specific protein within a KEGG pathway graph and (iii) propose a method for interpreting the classification models induced using KEGG features. 25 Results: We performed tests measuring predictive accuracy considering hierarchical and binary class labels extracted from the Mouse Phenotype Ontology. One of the KEGG feature types leads to the highest predictive accuracy among five individual feature types across three hierarchical classification algorithms. Additionally, the combination of the two KEGG feature types proposed in this work results in one of the best predictive accuracies when using the binary class version of our 30 datasets, at the same time enabling the extraction of knowledge from ageing-related data using quantitative influence information.

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ACO-Based Bayesian Network Ensembles for the Hierarchical Classification of Ageing-Related Proteins

Cited by 5 publications

References 23 publications

eAnt-Miner : An Ensemble Ant-Miner to Improve the ACO Classification

eAnt-Miner : An Ensemble Ant-Miner to Improve the ACO Classification

A Novel Extended Hierarchical Dependence Network Method Based on Non-hierarchical Predictive Classes and Applications to Ageing-Related Data

New KEGG pathway-based interpretable features for classifying ageing-related mouse proteins

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