Bioinformatics systems benefit from the use of data mining strategies to locate interesting and pertinent relationships within massive information. For example, data mining methods can ascertain and summarize the set of genes responding to a certain level of stress in an organism. Even a cursory glance through the literature in journals, reveals the persistent role of data mining in experimental biology. Integrating data mining within the context of experimental investigations is central to bioinformatics software. In this paper we describe the framework of Probabilistic Principal Surfaces, a latent variable model which offers a large variety of appealing visualization capabilities and which can be successfully integrated in the ...
ABSTRACT Motivation: The huge growth in gene expression data calls for the implementation of automat...
Development of methods for visualisation of high-dimensional data where the number of observations, ...
AbstractData mining allow users to discover novelty in huge amounts of data. Frequent pattern method...
Abstract Gene-expression microarrays make it possible to simultaneously measure the rate at which ...
The recent technological advances are producing huge data sets in almost all fields of scientific r...
Microarray technologies represent a powerful tool in biological re-search, but in order to attain th...
Motivation: The huge growth in gene expression data calls for the implementation of automatic tools ...
AbstractIn this work a comprehensive multi-step machine learning data mining and data visualization ...
In this paper, we discuss data sets that are being generated by microarray technology, which makes i...
How can molecular expression experiments be interpreted with greater than ten to the fourth measure...
Microarray technologies are a relatively new development that allow biologists to monitor the activi...
The advances known by Microarray technology have provided birth to enormous ameliorations and invest...
In the present work we have selected a collection of statistical and mathematical tools useful for t...
How can molecular expression experiments be interpreted with greater than ten to the fourth measurem...
Abstract: Advancement in biological data capturing devices such as microarray devices, sequence anal...
ABSTRACT Motivation: The huge growth in gene expression data calls for the implementation of automat...
Development of methods for visualisation of high-dimensional data where the number of observations, ...
AbstractData mining allow users to discover novelty in huge amounts of data. Frequent pattern method...
Abstract Gene-expression microarrays make it possible to simultaneously measure the rate at which ...
The recent technological advances are producing huge data sets in almost all fields of scientific r...
Microarray technologies represent a powerful tool in biological re-search, but in order to attain th...
Motivation: The huge growth in gene expression data calls for the implementation of automatic tools ...
AbstractIn this work a comprehensive multi-step machine learning data mining and data visualization ...
In this paper, we discuss data sets that are being generated by microarray technology, which makes i...
How can molecular expression experiments be interpreted with greater than ten to the fourth measure...
Microarray technologies are a relatively new development that allow biologists to monitor the activi...
The advances known by Microarray technology have provided birth to enormous ameliorations and invest...
In the present work we have selected a collection of statistical and mathematical tools useful for t...
How can molecular expression experiments be interpreted with greater than ten to the fourth measurem...
Abstract: Advancement in biological data capturing devices such as microarray devices, sequence anal...
ABSTRACT Motivation: The huge growth in gene expression data calls for the implementation of automat...
Development of methods for visualisation of high-dimensional data where the number of observations, ...
AbstractData mining allow users to discover novelty in huge amounts of data. Frequent pattern method...