Symmetrical Compression Distance for Arrhythmia Discrimination in Cloud-Based Big-Data Services

Author

Lillo-Castellano, J.M. ; Mora-Jimenez, I. ; Santiago-Mozos, R. ; Chavarria-Asso, F. ; Cano-Gonzalez, A. ; Garcia-Alberola, A. ; Rojo-Alvarez, J.L.

Author_Institution

Dept. of Signal Theor. & Commun., Rey Juan Carlos Univ., Fuenlabrada, Spain

Volume

19

Issue

4

fYear

2015

fDate

Jul-15

Firstpage

1253

Lastpage

1263

Abstract

The current development of cloud computing is completely changing the paradigm of data knowledge extraction in huge databases. An example of this technology in the cardiac arrhythmia field is the SCOOP platform, a national-level scientific cloud-based big data service for implantable cardioverter defibrillators. In this scenario, we here propose a new methodology for automatic classification of intracardiac electrograms (EGMs) in a cloud computing system, designed for minimal signal preprocessing. A new compression-based similarity measure (CSM) is created for low computational burden, so-called weighted fast compression distance, which provides better performance when compared with other CSMs in the literature. Using simple machine learning techniques, a set of 6848 EGMs extracted from SCOOP platform were classified into seven cardiac arrhythmia classes and one noise class, reaching near to 90% accuracy when previous patient arrhythmia information was available and 63% otherwise, hence overcoming in all cases the classification provided by the majority class. Results show that this methodology can be used as a high-quality service of cloud computing, providing support to physicians for improving the knowledge on patient diagnosis.

Keywords

cardiovascular system; cloud computing; data compression; defibrillators; diseases; electrocardiography; electronic health records; knowledge acquisition; learning (artificial intelligence); medical signal processing; patient diagnosis; signal classification; CSM; SCOOP platform; arrhythmia discrimination; automatic EGM classification; cardiac arrhythmia field; cloud computing; cloud-based big-data services; compression-based similarity measure; data knowledge extraction; implantable cardioverter defibrillators; intracardiac electrograms; minimal signal preprocessing; noise class; patient diagnosis; simple machine learning techniques; symmetrical compression distance; weighted fast compression distance; Biomedical measurement; Complexity theory; Databases; Dictionaries; Heart beat; Hospitals; Informatics; Big Data Analytics.; Big data analytics; Cardiac Arrhythmia Classification; Implantable Defibrillator; Intracardiac Electrogram; Weighted Fast Compression Distance; cardiac arrhythmia classification; implantable defibrillator; intracardiac electrogram; weighted fast compression distance;

fLanguage

English

Journal_Title

Biomedical and Health Informatics, IEEE Journal of

Publisher

ieee

ISSN

2168-2194

Type

jour

DOI

10.1109/JBHI.2015.2412175

Filename

7066939