An extensive Markov system for ECG exact coding

Author

Tai, S.-C.

Author_Institution

Inst. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan

Volume

42

Issue

2

fYear

1995

Firstpage

230

Lastpage

232

Abstract

An extensive Markov process, which considers both the coding redundancy and the intersample redundancy, is presented to measure the entropy value of an ECG signal more accurately. It utilizes the intersample correlations by predicting the incoming n samples based on the previous m samples which constitute an extensive Markov process state. Theories of the extensive Markov process and conventional n repeated applications of m-th order Markov process are studied first. After that, they are realized for ECG exact coding. Results show that a better performance can be achieved by the authors´ system. The average code length for the extensive Markov system on the second difference signals was 2.512 b/sample, while the average Huffman code length for the second difference signals was 3.326 b/sample.

Keywords

Markov processes; electrocardiography; encoding; medical signal processing; ECG exact coding; average Huffman code length; average code length; coding redundancy; extensive Markov process state; extensive Markov system; incoming n samples; intersample redundancy; m samples; m-th order Markov process; second difference signals; signal entropy value measurement; Biomedical computing; Biomedical measurements; Biomedical monitoring; Biomedical signal processing; Cardiography; Cardiology; Electrocardiography; Entropy; Impedance; Markov processes; Electrocardiography; Humans; Markov Chains; Signal Processing, Computer-Assisted;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/10.341837

Filename

341837