Publications

[1]    Selamtzis, A., Ternström, S., Richter, B., Burk, F., Köberlein, M., & Echternach, M. (2018). A comparison of electroglottographic and glottal area waveforms for phonation type differentiation in male professional singers. The Journal of the Acoustical Society of America, 144(6), 3275-3288.

[2]    Selamtzis, A., Castellana, A., Salvi, G., Carullo, A., & Astolfi, A. (2019). Effect of vowel context in cepstral and entropy analysis of pathological voices. Biomedical Signal Processing and Control, 47, 350-357.

[3]    Ternström, S., D'Amario, S., & Selamtzis, A. (2018). Effects of the lung volume on the electroglottographic waveform in trained female singers. Journal of Voice.

[4]    Selamtzis, Andreas. Analyses of voice and glottographic signals in singing and speech, Doctoral Dissertation, KTH Royal Institute of Technology, 2018.

[5]    Ternström, S., Johansson, D., & Selamtzis, A. (2018). FonaDyn—A system for real-time analysis of the electroglottogram, over the voice range. SoftwareX, 7, 74-80.

[6]    Castellana, A., Selamtzis, A., Salvi, G., Carullo, A., & Astolfi, A. (2017). Cepstral and entropy analyses in vowels excerpted from continuous speech of dysphonic and control speakers. In Interspeech 2017.

[7]    Echternach, M., Burk, F., Köberlein, M., Selamtzis, A., Döllinger, M., Burdumy, M., Richter, B., & Herbst, C. T. (2017). Laryngeal evidence for the first and second passaggio in professionally trained sopranos. PloS one, 12(5), e0175865.

[8]    Selamtzis, A., & Ternström, S. (2017). Investigation of the relationship between electroglottogram waveform, fundamental frequency, and sound pressure level using clustering. Journal of Voice, 31(4), 393-400.

[9]    Selamtzis, A., & Ternström, S. (2014). Analysis of vibratory states in phonation using spectral features of the electroglottographic signal. The Journal of the Acoustical Society of America, 136(5), 2773-2783.