Vedúci pracovnej skupiny: doc., Ing. Vojtech Chmelík, PhD.
Zástupca vedúceho: doc., Ing. Daniel Urbán, PhD.
Expertízna činnosť:
vývoj a revízia jednočíselných akustických veličín zameraných na hodnotenie kvality zvukovej izolácie; vývoj metód merania a predikcie akustických vlastností membránových konštrukcií a predikcia hluku spôsobeného dažďom.
Doktorandské témy:
- Development of new method for remote acoustic measurements of large building envelope structures based on ETFE cushion system
- Development of a method for the assessment of impact noise in buildings down to 20 Hz
- Sound insulation of building envelope components based on acoustic metamaterials
- Qualitative assessment of sound insulation of building envelopes
- Objective and subjective assessment of rain noise in rooms covered by structural skins
- Speech intelligibility in different architectura settings
- Akustický dizajn inkluzívnych tried budúcnosti
- Akustický komfort v átriách zastrešených tradičnými materiálmi a modernými membránovými konštrukciami
- Kročajové izolácie na báze recyklovaných plastov
- Stanovenie akustických vlastností pórobetónového muriva
- Analýza krokového hluku vo frekvenčnej oblasti pod 200Hz
- Vplyv stavebnej činnosti počas realizácie bytového domu na hlukovú záťaž dotknutého vonkajšieho prostredia
- EU project H2020 – MSCA – DN – No. 101072598 – Acoustic and Thermal Retrofit of Office Building Stock in EU
- EU project H2020-RISE, Advanced physical-acoustic and psycho-acoustic diagnostic methods for innovation in building (PAPABUILD);
- COST TU0901 Integrating and Harmonizing Sound Insulation Aspects in Sustainable Urban Housing Constructions
- COST TD0804 Soundscape of European Cities and Landscapes
- COST action TU1303 Novel structural skins: Improving sustainability and efficiency through new structural textile materials and designs
- Erasmus Plus 2016-1-PL01-KA202-026719, ACE - Acoustic Course for Engineers
- Erasmus Plus KA220-HED – UniHealth - Universities for Healthy City
- Visegrad Grant No. 21910451: Noisy Exchange
- 313022W068: Research and development of an innovated product - acoustic guitar
- VEGA 1/0205/22: Vývoj metódy na hodnotenie krokového hluku v budovách od 20 Hz
- KEGA 033STU-4/2024: Analýza AKUsticky Mäkkých materiálov – implementácia experimentálnych metód aplikovanej fyziky (AKUM)
- Projekt POO 09I05-03-V03-00014 Generative building design software aiming to streamline the AEC industry - QUBU
Urban, D., & Neusser, M. (2025). Investigating Objective Approaches for Assessing Impact Sound Insulation in Ceiling Systems Under Heavy/Soft Impact Excitation. Slovak Journal of Civil Engineering, 33(1), 10-18. https://doi.org/10.2478/sjce-2025-0002
Neusser, M., Urban, D., & Müllner, H. (2025). Acoustic performance and measurement challenges of loose blown-in insulation materials in wall constructions: a focus on straw. Building Acoustics, 1351010X251331026. https://doi.org/10.1177/1351010X251331026
Húdoková, D., Chmelík, V., Rychtáriková, M., & van Wieringen, A. (2025). Development and validation of SLPS: Slovak semantically predictable sentences. International Journal of Audiology, 1-9. https://doi.org/10.1080/14992027.2025.2471001
Glorieux, C., Chmelík, V., & Rychtáriková, M. (2024). Assessment of adequacy of single number quantities for wall insulation performance based on the Zwicker’s loudness of transmitted indoor noise. Building Acoustics, 31(2), 131-145. https://doi.org/10.1177/1351010X241236402
Zelem, L., Chmelík, V., Glorieux, C., & Rychtáriková, M. (2023). Correlation of room acoustic parameters and noise level in eating establishments. Acta Acustica, 7, 32. https://doi.org/10.1051/aacus/2023026
Rychtáriková, M., Zelem, L., Chmelík, V., Bailhache, S., & Glorieux, C. (2023). Zwicker’s Loudness model as a robust calculation method for assessment of adequacy of airborne sound insulation descriptors for partition walls in dwelling houses. Acta Acustica, 7, 8. https://doi.org/10.1051/aacus/2022057
Jaruszewska, K., Melon, M., Dazel, O., Vorländer, M., Rychtáriková, M., Horvat, M., ... & Chmelík, V. (2022). The ACOUCOU platform: Online acoustic education developed by an interdisciplinary team. The Journal of the Acoustical Society of America, 152(3), 1922-1931. https://doi.org/10.1121/10.0014170
Roozen, N. B., Urban, D., Piana, E. A., & Glorieux, C. (2021). On the use of dynamic vibration absorbers to counteract the loss of sound insulation due to mass-spring-mass resonance effects in external thermal insulation composite systems. Applied Acoustics, 178, 107999. https://doi.org/10.1016/j.apacoust.2021.107999
Chmelik, V., Urban, D., Zelem, L., & Rychtarikova, M. (2021). Effect of mouth mask and face shield on speech spectrum in Slovak language. Applied Sciences, 11(11), 4829. https://doi.org/10.3390/app11114829
Urbán, D., Roozen, N. B., Jandák, V., Brothánek, M., & Jiříček, O. (2021). On the Determination of Acoustic Properties of Membrane Type Structural Skin Elements by Means of Surface Displacements. Applied Sciences, 11(21), 10357. https://doi.org/10.3390/app112110357
Chmelík, V., Rychtáriková, M., Müllner, H., Jambrošić, K., Zelem, L., Benklewski, J., & Glorieux, C. (2020). Methodology for development of airborne sound insulation descriptor valid for light-weight and masonry walls. Applied acoustics, 160, 107144. https://doi.org/10.1016/j.apacoust.2019.107144
Roozen, N. B., Leclere, Q., Urbán, D., Kritly, L., & Glorieux, C. (2018). Assessment of the sound reduction index of building elements by near field excitation through an array of loudspeakers and structural response measurements by laser Doppler vibrometry. Applied Acoustics, 140, 225-235. https://doi.org/10.1016/j.apacoust.2018.06.002
Urbán, D., Roozen, N. B., Muellner, H., Zaťko, P., Niemczanowski, A., Rychtáriková, M., & Glorieux, C. (2018). Vibrometry assessment of the external thermal composite insulation systems influence on the façade airborne sound insulation. Applied Sciences, 8(5), 703. https://doi.org/10.3390/app8050703
Roozen, N. B., Leclere, Q., Urbán, D., Echenagucia, T. M., Block, P., Rychtáriková, M., & Glorieux, C. (2018). Assessment of the airborne sound insulation from mobility vibration measurements; a hybrid experimental numerical approach. Journal of Sound and Vibration, 432, 680-698. https://doi.org/10.1016/j.jsv.2018.06.058
Rychtáriková, M., Muellner, H., Chmelík, V., Roozen, N. B., Urbán, D., Garcia, D. P., & Glorieux, C. (2016). Perceived loudness of neighbour sounds heard through heavy and light-weight walls with equal R w+ C 50–5000. Acta Acustica united with Acustica, 102(1), 58-66. https://doi.org/10.3813/AAA.918924
Urbán, D., Roozen, N. B., Zaťko, P., Rychtarikova, M., Tomašovič, P., & Glorieux, C. (2016). Assessment of sound insulation of naturally ventilated double skin facades. Building and Environment, 110, 148-160. https://doi.org/10.1016/j.buildenv.2016.10.004
Rychtarikova, M., Chmelík, V., Roozen, N. B., & Glorieux, C. (2015). Front–back localization in simulated rectangular rooms. Applied Acoustics, 90, 143-152. https://doi.org/10.1016/j.apacoust.2014.11.012