Protein Fold Pattern Recognition Using Bayesian Ensemble of RBF Neural Networks

• Published in: 2009 International Conference of Soft Computing and Pattern Recognition pp. 436 - 441
• Main Authors: Hashemi, H.B., Shakery, A., Naeini, M.P.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.12.2009
• Subjects: Amino acids; Artificial neural networks; Bayesian Classifier Fusion; Bayesian methods; Biology computing; Computer networks; Machine learning; MLP; Neural networks; Neurons; Pattern recognition; Protein Folding; Proteins; RBF
• ISBN: 1424453305; 9781424453306
• DOI: 10.1109/SoCPaR.2009.91

Protein fold pattern recognition has been one of the most challenging problems in biology during the last 40 years. Recently due to the vast improvement in machine learning and pattern recognition methods many computer scientists have applied these methods to solve this problem. However, protein folding problem is much more complicated than ordinary machine learning problems because of its natural complexity imposed by the high dimensionality of feature space and diversity of different protein fold classes. To deal with such a challenging problem, we use an ensemble classifier model by applying MLP and RBF Neural Networks and Bayesian ensemble method. Also we have used the Laplace estimation method in order to smooth confusion matrices of the base classifiers. Experimental results imply that RBF Neural Network holds better Correct Classification Rate (CCR) compared to other common classification methods such as MLP networks. Our experiments also show that the Bayesian fusion method can improve the correct classification rate of proteins up to 20% with the final CCR of 59% by reducing both bias and variance error of the RBF classifiers, on a benchmark dataset containing 27 SCOP folds.