USER'S GUIDE - Biosignal Analysis and Medical Imaging Group
USER'S GUIDE - Biosignal Analysis and Medical Imaging Group USER'S GUIDE - Biosignal Analysis and Medical Imaging Group
References 66[43] M.P. Tarvainen, P.O. Ranta-aho, and P.A. Karjalainen. An advanced detrendingmethod with application to HRV analysis. IEEE Trans Biomed Eng, 49(2):172–175,February 2001.[44] Task force of the European society of cardiology and the North American society of pacingand electrophysiology. Heart rate variability – standards of measurement, physiologicalinterpretation, and clinical use. 93(5):1043–1065, March 1996.[45] N.V. Thakor, J.G. Webster, and W.J. Tompkins. Optimal QRS detector. Med BiolEng Comput, 21:343–350, May 1983.[46] L.L. Trulla, A. Giuliani, J.P. Zbilut, and C.L. Webber Jr. Recurrence quantificationanalysis of the logistic equation with transients. Phys Lett A, 223(4):255–260, 1996.[47] C.L. Webber Jr. and J.P. Zbilut. Dynamical assessment of physiological systems andstates using recurrence plot strategies. J Appl Physiol, 76:965–973, 1994.[48] E.J.M. Weber, C.M. Molenaar, and M.W. van der Molen. A nonstationarity test forthe spectral analysis of physiological time series with an application to respiratory sinusarrhythmia. Psychophysiol, 29(1):55–65, January 1992.[49] J.P. Zbilut, N. Thomasson, and C.L. Webber. Recurrence quantification analysis asa tool for the nonlinear exploration of nonstationary cardiac signals. Med Eng Phys,24:53–60, 2002.Kubios HRV Analysisversion 2.0 betaBiosignal Analysis and Medical Imaging GroupDepartment of PhysicsUniversity of Kuopio, FINLAND
- Page 16 and 17: Chapter 2Heart rate variabilityHear
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- Page 23 and 24: 3.2. Frequency-domain methods 23In
- Page 25 and 26: 3.3. Nonlinear methods 253.3.2 Appr
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- Page 33 and 34: 4.1. Input data formats 33Figure 4.
- Page 35 and 36: 4.2. The user interface 35Figure 4.
- Page 37 and 38: 4.2. The user interface 37In additi
- Page 39 and 40: 4.2. The user interface 39Figure 4.
- Page 41 and 42: 4.2. The user interface 41Figure 4.
- Page 43 and 44: 4.3. Saving the results 431. Softwa
- Page 45 and 46: 4.3. Saving the results 45Figure 4.
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- Page 51 and 52: Chapter 5Sample runsIn this chapter
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- Page 59 and 60: Appendix AFrequently asked question
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- Page 63 and 64: References[1] V.X. Afonso. ECG QRS
- Page 65: References 65[28] J. Mateo and P. L
References 66[43] M.P. Tarvainen, P.O. Ranta-aho, <strong>and</strong> P.A. Karjalainen. An advanced detrendingmethod with application to HRV analysis. IEEE Trans Biomed Eng, 49(2):172–175,February 2001.[44] Task force of the European society of cardiology <strong>and</strong> the North American society of pacing<strong>and</strong> electrophysiology. Heart rate variability – st<strong>and</strong>ards of measurement, physiologicalinterpretation, <strong>and</strong> clinical use. 93(5):1043–1065, March 1996.[45] N.V. Thakor, J.G. Webster, <strong>and</strong> W.J. Tompkins. Optimal QRS detector. Med BiolEng Comput, 21:343–350, May 1983.[46] L.L. Trulla, A. Giuliani, J.P. Zbilut, <strong>and</strong> C.L. Webber Jr. Recurrence quantificationanalysis of the logistic equation with transients. Phys Lett A, 223(4):255–260, 1996.[47] C.L. Webber Jr. <strong>and</strong> J.P. Zbilut. Dynamical assessment of physiological systems <strong>and</strong>states using recurrence plot strategies. J Appl Physiol, 76:965–973, 1994.[48] E.J.M. Weber, C.M. Molenaar, <strong>and</strong> M.W. van der Molen. A nonstationarity test forthe spectral analysis of physiological time series with an application to respiratory sinusarrhythmia. Psychophysiol, 29(1):55–65, January 1992.[49] J.P. Zbilut, N. Thomasson, <strong>and</strong> C.L. Webber. Recurrence quantification analysis asa tool for the nonlinear exploration of nonstationary cardiac signals. Med Eng Phys,24:53–60, 2002.Kubios HRV <strong>Analysis</strong>version 2.0 beta<strong>Biosignal</strong> <strong>Analysis</strong> <strong>and</strong> <strong>Medical</strong> <strong>Imaging</strong> <strong>Group</strong>Department of PhysicsUniversity of Kuopio, FINLAND