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Warianty tytułu
Języki publikacji
Abstrakty
In parallel with research conducted using conventional methods, a uniform index method for assessing the acoustic quality of Roman Catholic churches has been developed. The latest version of the index method has been created using the index observation matrix of 12 churches which have been rated by means of the single number global index. Assessments of the acoustic quality of any Roman Catholic church, using two calculation models: the Global Acoustic Properties Index (GAP) and the Global Index (GI), are shown in the article. The verification was performed on the example of one church, showing the way of calculating global indices to assess the acoustic quality of a new facility. The next stages in the development of the index method for assessing the acoustic quality of churches were taking into account the audience, using simulation tests and determining the spatial distribution of the single number GAP index in an examined church. An attempt to use the GAP and GI calculation models to assess the acoustic properties of some churches is also shown in the article.
Wydawca
Czasopismo
Rocznik
Tom
Strony
485--498
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr., fot.
Twórcy
autor
- Department of Mechanics and Vibroacoustics, AGH University of Science and Technology, al. Mickiewicza 30, 30-059 Kraków, Poland
Bibliografia
- 1. ALONSO A., SENDRA J. J., SUÁREZ R., ZAMARREÑO T. (2014), Acoustic evaluation of the cathedral of Seville as a concert hall and proposals for improving the acoustic quality perceived by listeners, Journal of Building Performance Simulation, 7, 5, 360-378.
- 2. ÁLVAREZ-MORALES L., ZAMARREÑO T., GIRÓN S., GALINDO S. (2014), A methodology for the study of the acoustic environment of Catholic cathedrals: Application to the Cathedral of Malaga, Building and Environment, 72, 102-115.
- 3. BERARDI U. (2012), A double synthetic index to evaluate the acoustics of churches, Archives of Acoustics, 37, 4, 521-528.
- 4. BERARDI U. (2014), Simulation of acoustical parameters in rectangular churches, Journal of Building Performance Simulation, 7, 1, 1-16.
- 5. BERARDI U., CIRILLO E., MARTELLOTTA F. (2009), A comparative analysis of acoustic energy models for churches, The Journal of the Acoustical Society of America, 126, 4, 1838-1849.
- 6. BERARDI U., IANNACE G., IANNIELLO C. (2015), Acoustic Intervention in a Cultural Heritage: The Chapel of the Royal Palace in Caserta, Italy, Buildings, 6, 1, 1-14.
- 7. BUENO A. M., LEÓN A. L., GALINDO M. (2012), Acoustic rehabilitation of the church of Santa Ana in Moratalaz, Madrid, Archives of Acoustics, 37, 4, 435-446.
- 8. CARMONA C., ZAMARREÑO T., GIRÓN S., GALINDO M. (2009), Acustica virtual de la iglesia san Lorenzo de Sevilla, Revista de Acustica, 40, 3-4, 7-12.
- 9. CARVALHO A. P. O., SILVA P. M. A. (2010), Sound, Noise and Speech at the 9000-Seat Holy Trinity Church in Fatima, Portugal, Archives of Acoustics, 35, 2, 145-156.
- 10. DALENBÄCK B. I. (2008), CATT-Acoustic v8 user’s manual, CATT, Mariagatan A, 16, 41471, Gothenburg, Sweden.
- 11. ENGEL Z., ENGEL J., KOSAŁA K., SADOWSKI J. (2007), The bases of acoustics of sacral objects, [in Polish: Podstawy akustyki obiektów sakralnych] ITE, Kraków - Radom.
- 12. ENGEL Z., KOSAŁA K. (2005), Acoustic properties of the selected churches in Poland, Mechanics, 24, 173¬181.
- 13. ENGEL Z., KOSAŁA K. (2007), Index method of the acoustic quality assessment of sacral building, Archives of Acoustics, 32, 3, 3-22.
- 14. ISO-3382-1 (2009), Acoustics - Measurement of room acoustic parameters, part 1: performance spaces, Geneva, Switzerland: ISO.
- 15. KOSAŁA K. (2009), Calculation Models for Acoustic Analysis of Sacral Objects, Archives of Acoustics, 34, 1, 3-11.
- 16. KOSAŁA K. (2012), Singular Vectors in Acoustic Simulation Tests of St. Paul the Apostle Church in Bochnia, Archives of Acoustics, 37, 1, 23-30.
- 17. KOSAŁA K. (2014), The comparative analysis of acoustic properties of Roman Catholic churches using the index method, Acta Physica Polonica A, 125, 99-102.
- 18. KOSAŁA K., ENGEL Z. W. (2013), Assessing the acoustic properties of Roman Catholic churches: A new approach, Applied Acoustics, 74, 1144-1152.
- 19. MAŁECKI P. (2014), Auralization of Several Churches and Listening Comparison Using Multidimensional Scaling Approach, Proceedings of the EAA Joint Symposium on Auralization and Ambisonics, pp. 151-155, Berlin.
- 20. MARTELLOTTA F. (2009), Identifying acoustical coupling by measurements and prediction-models for St. Peter’s Basilica in Rome, J. Acoust. Soc. Am., 126, 1175-1186.
- 21. MARTELLOTTA F., DELLA CROCIATA S., D’ALBA M. (2011), On Site Validation of Sound Absorption Measurements of Occupied Pews, Applied Acoustics, 72, 12, 923-933.
- 22. MARTELOTTA F., CRILLO E., CARBONARI A., RICCIARDI P. (2009), Guidelines for acoustical measurements in churches, Applied Acoustics, 70, 378-388.
- 23. MEYER J. (2003), Kirchenakustik, Frankfurt am Main, Verlag Erwin Bochinsky.
- 24. SUÁREZ R., ALONSO A., SENDRA J. (2015), Intangible cultural heritage: The sound of the Romanesque cathedral of Santiago de Compostela, Journal of Cultural Heritage, 16, 239-243.
- 25. VORLÄNDER M. (2008), Auralization, fundamentals of acoustics, modeling, simulation, algorithms and acoustic virtual reality, Berlin, Springer-Verlag.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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