[Batel, M. (2002). Operational Modal Analysis another way of doing modal testing. IEEE Transactions on Industry Applications, 36 (8), 22–27.]Search in Google Scholar
[Bischoff, M., Wall, W., Bletzinger, K-U. i Ramm, E. (2004). Models and Finite Elements for Thin-walled Structures. Encyclopedia of Computational Mechanics. New Jersey: John Wiley & Sons.]Search in Google Scholar
[Bishop, R. E. D. i Johnson, D. (1980). The Mechanics of Vibration. Cambridge: Cambridge University Press.]Search in Google Scholar
[Brandt, S. (1999). Analiza danych. Warszawa: Wydawnictwo Naukowe PWN.]Search in Google Scholar
[Brunarski, L. (1996). Nieniszczące badania betonu. Warszawa: Arkady.]Search in Google Scholar
[Ibrahim, S. R. i Mikulcik, E. C. (1977). A method for the direct identification of vibration parameters from the free response. Sound and Vibration Bulletin, 4 (47), 183–198.]Search in Google Scholar
[Natke, H. G. i Cempel, C. (1997). Model-Aided Diagnosis of Mechanical Systems. Berlin–Heidelberg: Springer.10.1007/978-3-642-60413-3]Search in Google Scholar
[Peeters, B. i Ventura, C. (2003). Comparative study of modal analysis techniques for bridge dynamic characteristics. Mechanical Systems and Signal Processing, 17 (5), 965–988.10.1006/mssp.2002.1568]Search in Google Scholar
[Pickrel, C. R. (2002). Airplane Ground Vibration Testing – Nominal Modal Model Correlation. Sound and Vibration, 36 (11), 18–23.]Search in Google Scholar
[Richardson, M. H. (1997). Is it a mode shape or an operating deflection shape? Sound and Vibration, 31 (1), 54–61.]Search in Google Scholar
[Richardson, M. H. i Formenti, D. L. (1982). Parameter Estimation from Frequency Response Measurements Using Rational Fraction Polynomials. W P.B. Juhl (ed.), Proceedings of the 1st International Modal Analysis Conference & Exhibit, Orlando, 08–10.11.1982 (strony 167–181). New York: Union College.]Search in Google Scholar
[Shih, C. Y., Tsuei, Y. G., Allemang, R. J. i Brown, D. L. (1988). Complex mode indication function and its applications to spatial domain parameter estimation. Mechanical Systems and Signal Processing, 2 (4), 367–377.10.1016/0888-3270(88)90060-X]Search in Google Scholar
[Uhl, T. (1997). Komputerowo wspomagana identyfikacja modeli konstrukcji mechanicznych. Warszawa: WNT.]Search in Google Scholar
[Vold, H., Kundrat, J., Rocklin, G. T. i Russell, R. (2010). A Multi-Input Modal Estimation Algorithm for MiniComputers. SAE Technical Paper 1.]Search in Google Scholar
[Żółtowski, B., Łukasiewicz, M. i Kałaczyński, T. (2012). The investigations aid in exploitation. Diagnostyka, 2 (62), 65–69.]Search in Google Scholar
[Żółtowski, M. (2005). Pomiary właściwości akustycznych materiałów. Materiały XII Międzynarodowej Konferencji „Diagnostyka Maszyn Roboczych i Pojazdów”, Bydgoszcz, 23–25.06.2005. Diagnostyka, 33, 168–172.]Search in Google Scholar
[Żółtowski, M. (2007). Selection of information on identification of the state of machine. Acta Academia, 310, 55–70.]Search in Google Scholar
[Żółtowski, M. (2011a). Komputerowe wspomaganie zarządzania systemem eksploatacji w przedsiębiorstwie produkcyjnym. Komputerowo zintegrowane zarządzanie. Vol. 2. Opole: Oficyna Wydawnicza PTZP.]Search in Google Scholar
[Żółtowski, M. (2011b). Analiza modalna w badaniach materiałów budowlanych. Radom: ITE-PIB.]Search in Google Scholar
[Żółtowski, M. (2014). Investigations of harbour brick structures by using operational modal analysis. Polish Maritime Research, 21 (1), 42–53.]Search in Google Scholar
[Żółtowski, M., Żółtowski, B. i Castaneda, L. (2013). Study of the state a Francis turbine. Polish Maritime Research, 20 (2), 41–47.10.2478/pomr-2013-0015]Search in Google Scholar