Abstract Background Accurate diagnosis of cancer subtypes remains a challenging problem. Building classifiers based on gene expression data is a promising approach; yet the selection of non-redundant but relevant genes is difficult. The selected gene set should be small enough to allow diagnosis even in regular clinical laboratories and ideally identify genes involved in cancer-specific regulatory pathways. Here an entropy-based method is proposed that selects genes related to the different cancer classes while at the same time reducing the redundancy among the genes. Results The present study identifies a subset of features by maximizing the relevance and minimizing the redundancy of the selected genes. A merit called normalized mutual inf...
Microarray technologies allow the measurement of thousands of gene expression levels simultaneously....
Dimension reduction and selection of a small number of genes with high ability, to discriminate obje...
With the advent of microarray technology, it is possible to measure gene expression levels of thousa...
Classification of microarray datasets has drawn attention of research community in last few years. M...
Abstract Background Microarray datasets are an important medical diagnostic tool as they represent t...
We describe a ranking method for the identification of biomedically important genes for diagnosis an...
Microarray data are expected to be useful for cancer classification. However, the process of gene se...
Abstract Background Gene expression microarray is a powerful technology for genetic profiling diseas...
Abstract The development of microarray devices has led to the accumulation of DNA microarray datase...
Microarray is a useful technique for measuring expression data of thousands or more of genes simulta...
The vast advancement in the field of DNA microarrays has enabled researchers to simultaneously analy...
AbstractMicroarray analysis is widely accepted for human cancer diagnosis and classification. Howeve...
We address gene selection and machine learning methods for cancer classification using microarray ge...
Due to the disproportionate difference between the number of genes and samples, microarray data anal...
Microarray technologies allow the measurement of thousands of gene expression levels simultaneously....
Microarray technologies allow the measurement of thousands of gene expression levels simultaneously....
Dimension reduction and selection of a small number of genes with high ability, to discriminate obje...
With the advent of microarray technology, it is possible to measure gene expression levels of thousa...
Classification of microarray datasets has drawn attention of research community in last few years. M...
Abstract Background Microarray datasets are an important medical diagnostic tool as they represent t...
We describe a ranking method for the identification of biomedically important genes for diagnosis an...
Microarray data are expected to be useful for cancer classification. However, the process of gene se...
Abstract Background Gene expression microarray is a powerful technology for genetic profiling diseas...
Abstract The development of microarray devices has led to the accumulation of DNA microarray datase...
Microarray is a useful technique for measuring expression data of thousands or more of genes simulta...
The vast advancement in the field of DNA microarrays has enabled researchers to simultaneously analy...
AbstractMicroarray analysis is widely accepted for human cancer diagnosis and classification. Howeve...
We address gene selection and machine learning methods for cancer classification using microarray ge...
Due to the disproportionate difference between the number of genes and samples, microarray data anal...
Microarray technologies allow the measurement of thousands of gene expression levels simultaneously....
Microarray technologies allow the measurement of thousands of gene expression levels simultaneously....
Dimension reduction and selection of a small number of genes with high ability, to discriminate obje...
With the advent of microarray technology, it is possible to measure gene expression levels of thousa...