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Scientific Ideas Included in the Concepts of Bioacoustics, Acoustic Ecology, Ecoacoustics, Soundscape Ecology, and Vibroacoustics

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Języki publikacji
EN
Abstrakty
EN
The paper discusses the research areas which are placed in the modern science on the borderline between ecology and acoustics. It is explained what ideas are included in the concepts of bioacoustics, acoustic ecology, ecoacoustics, and soundscape ecology. The results obtained in these domains are compared with those received in vibroacoustic research presented at the Polish WIBROTECH conference cycle. The paper suggests an inventory of research topics connected with acoustics and ecology. In the second part of the paper the author presents the possibilities of ambisonic technology of recording and listening to sounds for the analysis in bioacoustic research.
Rocznik
Strony
415--421
Opis fizyczny
Bibliogr. 42 poz., fot., rys.
Twórcy
autor
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Department of Mechanics and Vibroacoustics, Al. Mickiewicza 30, 30-059 Kraków, Poland
Bibliografia
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  • 3. Batko W., Dąbrowski Z., Kiciński J. (2008), Nonlinear effects in technical diagnostics [in Polish], Wydawnictwo Instytutu Technologii Eksploatacji – PIB, Radom.
  • 4. Batko W., Pawlik P. (2012), New approach to the uncertainty assessment of acoustic effects in the environment, Archives of Acoustics, 37, 1, 57-61.
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  • 6. Dąbrowski Z. (1992), The evaluation of the vibroacoustic activity for the needs of constructing and use of machines, Machine Dynamics Problems, Vol. 4.
  • 7. Dąbrowski Z., Dziurdź J., Pąkowski R. (2013), Selection of sound insulating elements in hydraulic excavators based on identification of vibroacoustic Energy propagation paths, Archives of Acoustics, 38, 4, 471-478.
  • 8. Dąbrowski Z., Dziurdź J. (2015), On the need of vibroacoustic axiomatics, Journal of Vibroengineering, 17, 8, 4640-4647.
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  • 11. Engel Z. (2007), Comparative analysis of correlation and inversion methods applied in vibroacoustic [in Polish], Przegląd Mechaniczny, Stowarzyszenie Inżynierów i Techników Mechaników Polskich, 66, 11, 18-21.
  • 12. Fabirkiewicz A. (1999), Acoustic environment of animals [in Polish], Rozwój SGGW, Warszawa.
  • 13. Farina A. (2014), Soundscape ecology. Principles, patterns, methods and application, Springer.
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  • 15. Gužas D., Genienë V., Šarlauskas A. (2006), Regional reduction of ecoacoustics related noise pollution, ULTRAGARSAS, 61, 4, 53-57.
  • 16. Jablonski M., Ozga A. (2013), Distribution of random pulses acting on a vibrating system as a function of its motion, AGH University of Science and Technology, Kraków.
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  • 18. Kasprzak C., Skrodzka E., Wiciak J. (2014), The effect of wind turbine infrasound emission on subjectively rated activation level, Acta Physica Polonica A, 125, 4-A, A-45-A-48.
  • 19. Kasprzak C. (2014), The influence of infrasound noise from wind turbines on EEG signal patterns in humans, Acta Physica Polonica A, 125, 4-A, 20-23.
  • 20. Kelly D. J., Prendergast P. J., Blayney A. W. (2003), The effect of prosthesis design on vibration of the reconstructed ossicular chain: A comparative finite element analysis of four prostheses, Otology & Neurotology, 24, 1, 11-19.
  • 21. Kleczkowski P., Pluta M. (2012), Normally hearing subjects have no advantage of better audiograms in listening tasks, Acta Physica Polonica A, 121, 1-A, A-115-A-119.
  • 22. Klekot G. (2013), Indicator of vibroacoustic Energy propagation as a selection criterion of design solution, Archives of Acoustics, 38, 4, 489-494.
  • 23. Kompała J. (2005), Methodology for spatial classification of transport routes in the view of their impact on the acoustic climate of the environment, Archives of Environmental Protection, 31, 4, 123-132.
  • 24. Konieczny J., Kowal J., Raczka W., Sibielak M. (2013), Bench tests of slow and full active suspensions in terms of energy consumption, Journal of Low Frequency Noise, Vibration and Active Control, 32, 81-98.
  • 25. Ozga A. (2013), Determining parameters of an RLC circuit response to a single pulse, Acta Physica Polonica A, 123, 6, 1034-1039.
  • 26. Ozga A. (2014), Distribution of random pulses forcing a damped oscillator determined in a finite time interval, Acta Physica Polonica A, 125, 4-A, A-159-A-163.
  • 27. Piechowicz J., Ozga A., Mleczko D., Kasprzak C., Stryczniewicz L. (2015), Acoustic ecology in forest areas [in Polish], Akademia Górniczo-Hutnicza. Wydział Inżynierii Mechanicznej i Robotyki. Katedra Mechaniki i Wibroakustyki, Kraków.
  • 28. Pijanowski B. C., Villanueva-Rivera L., Dumyahn S. L., Farina A., Krause B. L., Napoletano B. M., Gage S. H., Pieretti N. (2011), Soundscape ecology. The science of sound in the landscape, Bioscience, 61, 3, 203-216.
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  • 32. Ryżak M., Bieganowski A., Korbiel T. (2016), Sound wave energy resulting from the impact of water drops on the soil surface, PloS One, 11, 7, 1-12.
  • 33. Schafer M. R. (1977), The Tuning of the World, McClelland and Steward Ltd., Nowy Jork, Knopf, Toronto.
  • 34. Schafer M. R. (1986), The thinking ear: complete writings on music education, Toronto, Arcana Editions.
  • 35. Sibielak M., Konieczny J., Kowal J., Raczka W., Marszalik D. (2013), Optimal control of slow-active vehicle suspension – results of experimental data, Journal of Low Frequency Noise, Vibration and Active Control, 32, 99-116.
  • 36. Sueur J., Aubin T., Simonis C. (2008), Seewave. A free modular tool for sound analysis and synthesis, Bioacoustics-The International Journal of Animal Sound and Its Recording, 18, 2, 213-226.
  • 37. Sueur J., Farina A. (2015), Ecoacoustics. The ecological investigation and interpretation of environmental sound, Biosemiotics, 8, 3, 493-502.
  • 38. Stepień B. (2016), Bootstrap confidence intervals for noise indicators, Acta Acustica united with Acustica, 102, 2, 389-397.
  • 39. Tembrock G. (1959), Voices of animals. Introduction to bioacoustics [in Polish], PWN.
  • 40. Wiciak J., Mleczko D., Ozga A., Wszołek G., Wierzbicki J., Piechowicz J., Małecki P. (2015), Quietness in the soundscape of the Białowieza National Park, Acta Physica Polonica A, 128, 1-A, A-79-A-84.
  • 41. Wrightson K. (2000), An introduction to acoustic ecology – Soundscape, The Journal of Acoustic Ecology, 1.1, 10-13.
  • 42. Wszolek T., Klaczynski M., Mleczko D., Ozga A. (2014), On certain problems concerning environmental impact assessment of wind turbines in scope of acoustic effects, Acta Physica Polonica A, 125, 4-A, A-38-A-44.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-348902f7-d6f5-4fe9-80e6-e40e758da13d
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