Detection of ventricular fibrillation using Hilbert transforms, phase-space reconstruction, and time-domain analysis
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- 作者:Sang-Hong Lee (1)
Kyung-Yong Chung (2)
Joon S. Lim (3) - 关键词:Ventricular fibrillation ; Hilbert transforms ; Feature selection ; Phase ; space reconstruction ; Time ; domain analysis
- 刊名:Personal and Ubiquitous Computing
- 出版年:2014
- 出版时间:August 2014
- 年:2014
- 卷:18
- 期:6
- 页码:1315-1324
- 全文大小:1,180 KB
- 参考文献:1. Afonso VX, Tompkins WJ (1995) Detection ventricular fibrillation. IEEE Eng Med Biol Mag 14(2):152-59 CrossRef
2. Alexandre B, Laurent B, Alice C, Phillipe N, Lionel L, Daniela GT, Vjekoslav L, Céline M, Guillaume C (2009) Multimodal focus attention and stress detection and feedback in an augmented driver simulator. Pers Ubiquit Comput 13:33-1 CrossRef
3. Amann A, Tratnig R, Unterkofler K (2007) Detecting ventricular fibrillation by time-delay methods. IEEE Trans Biomed Eng 54(1):174-77 CrossRef
4. Arzeno NM, Deng Z-D, Poon C-S (2008) Analysis of first-derivative based QRS detection algorithms. IEEE Trans Biomed Eng 55(2):478-84 CrossRef
5. Baek SJ, Han JS, Chung KY (2013) Dynamic reconfiguration based on goal-scenario by adaptation strategy. Wireless Pers Commun. doi:10.1007/s11277-013-1239-0
6. Barro S, Ruiz R, Cabello D, Mira J (1989) Algorithmic sequential decision-making in the frequency domain for life threatening ventricular arrhythmias and imitative artifacts: a diagnostic system. J Biomed Eng 11:320-28 CrossRef
7. Burcu C, Bert A, Roberto LM, Gerhard T (2013) Monitoring of mental workload levels during an everyday life office-work scenario. Pers Ubiquit Comput 17:229-39 CrossRef
8. Choi S, Jiang Z (2008) Comparison of envelope extraction algorithms for cardiac sound signal segmentation. Expert Syst Appl 34:1056-069 CrossRef
9. Chuang L-Y, Tsai S-W, Yang C-H (2011) Improved binary particle swarm optimization using catfish effect for feature selection. Expert Syst Appl 38:12699-2707 CrossRef
10. de Cristina N, Michael B, Carlo M, del José RM (2011) Brain-computer interfaces for space applications. Pers Ubiquit Comput 15:527-37 CrossRef
11. Dornaika F, Lazkano E, Sierra B (2011) Improving dynamic facial expression recognition with feature subset selection. Pattern Recogn Lett 32:740-48 CrossRef
12. Engin M (2004) ECG beat classification using neuro-fuzzy network. Pattern Recogn Lett 25:1715-722 CrossRef
13. Gunn SR (1998) Support vector machines for classification and regression, faculty of engineering and applied science, technical report, pp 1-4
14. Hahn SL (1996) Hilbert transforms in signal processing. Artech House Publishers
15. Han JS, Chung KY, Kim GJ (2013) Policy on literature content based on software as service. Multimed Tools Appl. doi:10.1007/s11042-013-1664-9
16. Kabir M, Islam M, Murase K (2010) A new wrapper feature selection approach using neural network. Neurocomputing 73:3273-283 CrossRef
17. Kandaswamy A, Sathish KC, Ramanathan RP, Jayaraman S, Malmurugan N (2004) Neural classification of lung sounds using wavelet coefficients. Comput Biol Med 34:523-37 CrossRef
18. Karayiannis N (2000) Soft learning vector quantization and clustering algorithms based on ordered weighted aggregation operators. IEEE Trans Neural Netw 11:1093-105 CrossRef
19. Kim SH, Chung KY (2013) Medical information service system based on human 3D anatomical model. Multimed Tools Appl. doi:10.1007/s11042-013-1584-8
20. Kim JH, Chung KY (2013) Ontology-based healthcare context information model to implement ubiquitous environment. Multimed Tools Appl. doi:10.1007/s11042-011-0919-6
21. Ko JW, Chung KY, Han JS (2013) Model transformation verification using similarity and graph comparison algorithm. Multimed Tools Appl. doi:10.1007/s11042-013-1581-y
22. Kong DR, Xie HB (2011) Use of modified sample entropy measurement to classify ventricular tachycardia and fibrillation. Measurement 44:653-62 measurement.2010.12.004" target="_blank" title="It opens in new window">CrossRef
23. Lee S-H, Lim JS (2011) Forecasting KOSPI based on a neural network with weighted fuzzy membership functions. Expert Syst Appl 38:4259-263 CrossRef
24. Lee S-H, Lim JS (2012) Parkinson’s disease classification using gait characteristics and wavelet-based feature extraction. Expert Syst Appl 39:7338-344 CrossRef
25. Lee S-H, Lim JS (2013) Comparison of DBS and levodopa on resting tremor using a fuzzy neural network system. Measurement 46:1995-002 measurement.2013.02.014" target="_blank" title="It opens in new window">CrossRef
26. Lim JS (2009) Finding features for real-time premature ventricular contraction detection using a fuzzy neural network system. IEEE Trans Neural Netw 20:522-27 CrossRef
27. Linh TH, Osowski S, Stodolski M (2003) On-line heart beat recognition using Hermite polynomials and neuro-fuzzy network. IEEE Trans Instrum Meas 52(4):1224-231 CrossRef
28. Martínez Sotoca JM, Pla F (2010) Supervised feature selection by clustering using conditional mutual information-based distances. Pattern Recogn 43:2068-081 CrossRef
29. Mateo J, Laguna P (2000) Improved heart rate variability signal analysis from the beat occurrence times according to the IPFM model. IEEE Trans Biomed Eng 47(8):985-96 CrossRef
30. McNemar Q (1947) Note on the sampling error of the difference between correlated proportions or percentages. Psychometrika 12:153-57 CrossRef
31. Merigó JM, Casanovas M (2011) Induced aggregation operators in the Euclidean distance and its application in financial decision making. Expert Syst Appl 38:7603-608 CrossRef
32. Minami K, Nakajima H, Toyoshima T (1999) Real-time discrimination of ventricular tachyarrhythmia with Fourier-transform neural network. IEEE Trans Biomed Eng 46(2):176-85 CrossRef
33. Nikolopoulos S, Alexandridi A, Nikolakeas S, Manisc G (2003) Experimental analysis of heart rate variability of long-recording electrocardiograms in normal subjects and patients with coronary artery disease and normal left ventricular function. J Biomed Inform 36:202-17 CrossRef
34. Nygards M, S?rnmo L (1983) Delineation of the QRS complex using the envelope of the ECG. Med Biol Eng Comput 21:538-47 CrossRef
35. Oiws MI, Abou-Zied AH, Youssef AM (2002) Study of features based on nonlinear dynamical modeling in ECG arrhythmia detection and classification. IEEE Trans Biomed Eng 29(7):733-36 CrossRef
36. Osowski S, Linh TH (2001) ECG beat recognition using fuzzy hybrid neural network. IEEE Trans Biomed Eng 48(4):1265-271 CrossRef
37. Packard NH, Crutchfield JP, Farmer JD, Shaw RS (1980) Geometry from a time series. Phys Rev Lett 45:712-16 CrossRef
38. Sch?lkopf B, Smola AJ, Williamson RC, Bartlett PL (2000) New support vector algorithms. Neural Comput 12:1207-245 CrossRef
39. Shyu L-Y, Wu Y-H, Hu W (2004) Using wavelet transform and fuzzy neural network for VPC detection from the Holter ECG. IEEE Trans Biomed Eng 51(7):1269-273 CrossRef
40. Sivakumar B (2002) A phase-space reconstruction approach to prediction of suspended sediment concentration in rivers. J Hydrol 258:149-62 CrossRef
41. Sivakumar B, Jayawardena AW, Fernando TMKG (2002) River flow forecasting: use of phase-space reconstruction and artificial neural networks approaches. J Hydrol 265:225-45 CrossRef
42. Small M, Yu D, Harrison RG, Robertson C, Clegg G, Holzer M (2000) Deterministic nonlinearity in ventricular fibrillation. Chaos 10:268-77 CrossRef
43. Su Z-G, Wang P-H (2012) Minimizing neighborhood evidential decision error for feature evaluation and selection based on evidence theory. Expert Syst Appl 39:527-40 CrossRef
44. Subasi A (2007) EEG signal classification using wavelet feature extraction and a mixture of expert model. Expert Syst Appl 32:1084-093 CrossRef
45. Szmidt E, Kacprzyk J (2000) Distances between intuitionistic fuzzy sets. Fuzzy Sets Syst 114:505-18 CrossRef
46. Tanaka K, Hargens AR (2004) Wavelet packet transform for R–R interval variability. Med Eng Phys 26:313-19 CrossRef
47. übeyli ED (2009) Adaptive neuro-fuzzy inference system for classification of ECG signals using Lyapunov exponents. Comput Methods Programs Biomed 93(3):313-21 CrossRef
48. übeyli ED (2010) Recurrent neural networks employing Lyapunov exponents for analysis of ECG signals. Expert Syst Appl 37:1192-199 CrossRef
49. van den Broek EL (2013) Ubiquitous emotion-aware computing. Pers Ubiquit Comput 17:53-7 CrossRef
50. Xie HB, Gao ZM, Liu H (2011) Classification of ventricular tachycardia and fibrillation using fuzzy similarity-based approximate entropy. Expert Syst Appl 38:3973-981 CrossRef - 作者单位:Sang-Hong Lee (1)
Kyung-Yong Chung (2)
Joon S. Lim (3)
1. Department of Computer Science and Engineering, Anyang University, Anyang, Republic of Korea
2. School of Computer Information Engineering, Sangji University, Wonju, Republic of Korea
3. IT College, Gachon University, Seongnam, Republic of Korea - ISSN:1617-4917
文摘
This study proposes feature extraction using Hilbert transforms, phase-space reconstruction, and time-domain analysis to detect ventricular fibrillation and normal sinus rhythm from electrocardiogram (ECG) episodes. We implemented three preprocessing steps to extract features from ECG episodes. In the first step, we use Hilbert transforms to extract peaks. In the second step, we use statistical methods and extract four features from the peaks. In the final step, we extract four features using statistical methods based on the Euclidean distance between the origin (0, 0) and the peaks after the peaks are plotted in a two-dimensional phase-space diagram. By applying time-domain analysis directly to the series of successive peak-to-peak interval values, we extract seven additional features. Using a neural network with weighted fuzzy membership functions (NEWFM), we applied the nonoverlap area distribution measurement method, and from 15 initial features, we selected 11 minimum features exhibiting the highest accuracy. Then, we applied the 11 minimum features as inputs to the NEWFM and recorded sensitivity, specificity, and accuracy values of 79.12, 89.58, and 87.51?%, respectively. In addition, McNemar’s test revealed a significant difference between the performances of NEWFM with and without feature selection (p?