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Volume 14   Issue 2   Year 2019
Cleaning Data Sets with Diagnostic Errors in the High-Dimensional Feature Spaces

Borisova I.A., Kutnenko O.A.

Sobolev Institute of Mathematics Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia

Abstract. The paper proposes a new approach in data censoring, which allows correcting diagnostic errors in the data sets in case when these samples are described in high-dimensional feature spaces. Considering this case as a separate task is explained by the fact that in high-dimensional spaces most of the methods of outliers detection and data filtering, both statistical and metric, stop working. At the same time, for the tasks of medical diagnostics, given the complexity of the objects and phenomena studied, a large number of descriptive characteristics are the norm rather than the exception. To solve this problem, an approach that focuses on local similarity between objects belonging to the same class and uses the function of rival similarity (FRiS function) as a measure of similarity has been proposed. In this approach for efficient data cleaning from misclassified objects, the most informative and relevant low-dimensional feature subspace is selected, in which the separability of classes after their correction will be maximal. Class separability here means the similarity of objects of one class to each other and their dissimilarity to objects of another class. Cleaning data from class errors can consist both in their correction and removing the objects-outliers from the data set. The described method was implemented as a FRiS-LCFS algorithm (FRiS Local Censoring with Feature Selection) and tested on model and real biomedical problems, including the problem of diagnosing prostate cancer based on DNA microarray analysis. The developed algorithm showed its competitiveness in comparison with the standard methods for filtering data in high-dimensional spaces.

Key words:
pattern recognition, function of rival similarity, compactness, class separability, outliers detection, features selection.

Table of Contents Original Article
Math. Biol. Bioinf.
2019;14(2):464-476
doi: 10.17537/2019.14.464
published in Russian

Abstract (rus.)
Abstract (eng.)
Full text (rus., pdf)
References

 

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