Shijie Zhou


  1. [1] W. H. Organization, ”Global Health Risks Mor-tality and Burden of Disease Attributable to Se-lected Major Risks,” available Website (Mar.1,2012) burdendisease/GlobalHealthRisks report full.pdf.
  2. [2] J. Rodriguez, A. Goni, and A. Illarramendi, Real-time Classification of ECGs on a PDA, IEEE Trans-actions on Information Technology in Biomedicine,9(1), 2005, 23-34.
  3. [3] K. Minami, H. Nakajima, and T. Toyoshima, Real-time discrimination of ventricular tachyarrhythmiawith Fourier-transform neural network, IEEE Trans-actions on Biomedical Engineering, 46(2), 1999, 179-185.
  4. [4] A. S. Al-Fahoum and I. Howitt, Combined wavelettransformation and radial basis neural networks forclassifying life-threatening cardiac arrhythmias, Med-ical & Biological Engineering & Computing, 37(5),1999, 566-573.
  5. [5] N. V. Thakor, Y. S. Zhu, and K. Y. Pan, Ventriculartachycardia and fibrillation detection by a sequentialhypothesis testing algorithm, IEEE Transactions onBiomedical Engineering, 37(9), 1990, 837-843.
  6. [6] N. V. Thakor, A. Natarajan, and G. Tomaselli, Multi-way sequential hypothesis testing for tachyarrhythmiadiscrimination, IEEE Transactions on Biomedical En-gineering, 41(5), 1994, 480-487.
  7. [7] V. X. Afonso and W. J. Tompkins, Detecting ventricu-lar fibrillation,IEEE Engineering in Medicine and Bi-ology Magazine, 14(2), 1995, 152-159.
  8. [8] Y. Wang, Y. S. Zhu, N.V. Thakor and Y. H. Xu, ” Ashort-time multifractal approach for arrhythmia de-tection based on fuzzy neural network, IEEE Trans-actions on Biomedical Engineering, 48(9), 2001, 989-995.
  9. [9] M.I. Owis, A.H. Abou-Zied, A.-B.M. Youssef and Y.M. Kadah, Study of features based on nonlinear dy-namical modeling in ECG arrhythmia detection andclassification, IEEE Transactions on Biomedical En-gineering, 49(7), 2002, 733-736.
  10. [10] H. B. Xie, Z. M. Gao and H. Liu, ”Classificationof ventricular tachycardia and fibrillation using fuzzysimilarity-based approximate entropy, J. Expert Sys-tems with Applications, 38, 2011, 3973-3981.
  11. [11] X. S. Zhang, Y. S. Zhu, N. Thakor, and Z. Z. Wang,Detecting Ventricular Tachycardia and Fibrillation byComplexity Measure, IEEE Transactions on Biomed-ical Engineering, 46(5), 1999, 548-555.
  12. [12] S. Zhou, Z. Zhang and and J. Gu, Time-domain ECGsignal analysis based on smart-phone, 33rd AnnualInternational Conf. on Engineering in Medicine andBiology Society (EMBC), 2011, 2582 2585.
  13. [13] A. Lempel and J. Ziv, On the Complexity of FiniteSequences, IEEE Transactions on Information The-ory, 22(12), 1976, 75-81.
  14. [14] MIT-BIH database, Available Website (Mar.1, 2012)
  15. [15] W. Brady, S. Meldon and D. DeBehnke, Comparisonof prehospital monomorphic and polymorphic ven-tricular tachycardia: prevalence, response to therapy,and outcome, Annals of emergency medicine, 25(1),1995, 64-70.
  16. [16] F. A. Hensley, D. E. Martin and G. P. Gravlee, A Prac-tical Approach to Cardiac Anesthesia, ( LippincottWilliams and Wilkins, 2008).
  17. [17] V. Murthy, T. Grove, G. Harvey and L. Haywood,Clinical Usefulness of ECG Frequency SpectrumAnalysis, Proc. 2nd Symposium on Computer Ap-plication in Medical Care, Washington, D.C., USA,1978, 610-612.
  18. [18] I. Jekova, A. Cansell and I. Dotsinsky, Noise Sensitiv-ity of Three Surface ECG Fibrillation Detection Algo-rithms, J. of Physiological Measurement, 22(2), 2001,287-297.
  19. [19] L. G. Gomella and S. A. Haist, Clinicians Pocket Ref-erence, (New York: McGraw-Hill, 2004).
  20. [20] J. Pan and W. J. Tompkins, A Real-Time QRS De-tection Algorithm, IEEE Transactions on BiomedicalEngineering , 32(3),1985, 230-236.
  21. [21] P. S. Hamilton and W. J. Tompkins, QuantitativeInvestigation of QRS Detection Rules Using theMIT/BIH Arrhythmia Database, IEEE Transactionson Biomedical Engineering , 33(12), 1986, 1157-1165.
  22. [22] U. Ayesta, L. Serrano, and I. Romero, Complexitymeasure revisited: a new algorithm for classifyingcardiac arrhythmias, Proc. 23rd Conf. on Engineeringin Medicine and Biology Society, Istanbul, Turkey,2001, 1589-1591.
  23. [23] D. Griffiths, Head First Statistics, (O Reilly Media,2008).

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