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Publications

[1] G. Kozmann and K. Haraszti, "Importance of body surface potential field representation fidelity: analysis of beat-to-beat repolarization measurements," Anadolu Kardiyol Derg, vol. 7, no. Suppl 1, pp. 5-7, 2007.

[2] G. Kozmann, K. Haraszti and I. Préda, "Importance of body surface potential field representation fidelity: assessment of arrhythmia vulnerability," Journal of Electrocardiology, vol. 40, p. S37, 2007.

[3] E. Kellerová, V. Szathmáry, G. Kozmann, K. Haraszti and Z. Tarjányi, "Spontaneous variability and reactive postural beat-to-beat changes of integral ECG body surface potential maps," Physiological Research, vol. 59, pp. 887-896, 2010.

[4] G. Kozmann, K. Haraszti and I. Préda, "Beat-to-beat interplay of heart rate, ventricular depolarization, and repolarization," Journal of Electrocardiology, vol. 43, no. 1, pp. 15-24, 2010.

[5] G. Kozmann, Z. Tarjányi, G. Tuboly, V. Szathmáry, J. Švehlíková and M. Tyšler, "Model Interpretation of Non-Dipolar Integral Body Surface QRST Maps Randomly Appearing in Arrhythmia Patients," Biological and Medical Systems, vol. 8, no. 1, pp. 18-22, 2012.

[6] G. Tuboly, G. Kozmann, Z. Tarjányi, V. Szathmáry, J. Švehlíková and M. Tyšler, "Differences in QRST integral map variability in healthy subjects and arrhythmia patients," in Lecture notes of the ICB Seminar: Variability in Biomedical Signals, Warsaw, Polish Academy of Sciences, 2012, pp. 10-11.

[7] G. Tuboly, G. Kozmann, V. Szathmáry, J. Švehlíková and M. Tyšler, "Model Interpretation of Pathological Body Surface QRST Integral Maps Related to Action Potential Heterogeneity," in Measurement 2013: 9th International Conference on Measurement, Bratislava, Vydavatelstvo Slovenskej Akadémie Vied (VEDA), 2013, pp. 81-84.

[8] G. Kozmann and G. Tuboly, "Model Validation of Ventricular Repolarization Dispersion Assessment by QRST Integral Maps," in BIT's 6th Annual International Congress of Cardiology-2014 (Abstract Book), Dalian, BIT Congress Inc., 2014, p. 51.

[9] G. Kozmann, G. Tuboly, V. Szathmáry, J. Švehlíková and M. Tyšler, "Computer modelling of beat-to-beat repolarization heterogeneity in human cardiac ventricles," Biomedical Signal Processing and Control, vol. 14, pp. 285-290, 2014.

[10] G. Kozmann, G. Tuboly, V. Szathmáry, J. Švehlíková and M. Tyšler, "The Impact of Action Potential and Conduction Velocity Distribution Changes on Markers of Repolarization Dispersion," in Electrocardiology 2014: Proceedings of the 41st International Congress on Electrocardiology, Bratislava, Vydavatelstvo Slovenskej Akadémie Vied (VEDA), 2014, pp. 131-134.

[11] G. Kozmann, G. Tuboly, Z. Tarjányi, V. Szathmáry, J. Švehlíková and M. Tyšler, "Model interpretation of body surface potential QRST integral map variability in arrhythmia patients," Biomedical Signal Processing and Control, vol. 12, pp. 3-9, 2014.

[12] G. Tuboly, G. Kozmann and G. Z. Kozmann, "Innovative Arrhythmia Risk Assessment Methods," in BIT's 6th Annual International Congress of Cardiology-2014 (Abstract Book), Dalian, BIT Congress Inc., 2014, p. 172.

[13] G. Tuboly and G. Kozmann, "Atrial Fibrillation Detection Based on Poincaré plot of RR Intervals," in Measurement 2015: 10th International Conference on Measurement, Bratislava, Vydavatelstvo Slovenskej Akadémie Vied (VEDA), 2015, pp. 89-92.

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