Open Access
Issue
Acta Acust.
Volume 10, 2026
Article Number 45
Number of page(s) 16
Section Building Acoustics
DOI https://doi.org/10.1051/aacus/2026039
Published online 16 June 2026
  1. ISO/IEC Guide 98-3:2008: Uncertainty of measurement – Part 3: guide to the expression of uncertainty in measurement (GUM:1995). [Google Scholar]
  2. ISO 140-2: 1991: Acoustics; Measurement of sound insulation in buildings and of building elements; Part 2: determination, verification and application of precision data. [Google Scholar]
  3. ISO 12999-1: 2020: Acoustics – Determination and application of measurement uncertainties in building acoustics – Part 1: sound insulation. [Google Scholar]
  4. V. Wittstock: Determination of measurement uncertainties in building acoustics by interlaboratory tests. Part 1: airborne sound insulation. Acta Acustica United with Acustica 101 (2015) 88–98. [Google Scholar]
  5. V. Wittstock, W. Scholl: Unsicherheiten beim Trittschall, in: DAGA 10, Berlin, 2010 (in German). [Google Scholar]
  6. ISO 10140-5: 2021: Acoustics – Laboratory measurement of sound insulation of building elements – Part 5: requirements for test facilities and equipment. [Google Scholar]
  7. ISO 717-2:2020: Acoustics – Rating of sound insulation in buildings and of building elements – Part 2: impact sound insulation. [Google Scholar]
  8. L.C. Fothergill: Recommendations for the measurement of sound insulation between dwellings. Applied Acoustics 13 (1980) 171–187. [Google Scholar]
  9. W.G.M. Beentjes: Round Robin onderzoek naar praktijkmetingen van de geluidisolatie, Rapport nr. 6404/1987, Bouwcentrum, Rotterdam, 1987. [Google Scholar]
  10. J. Lang: Results from two round robins for building acoustic measurements in buildings (in German). UBA-BE-067, Report of the Umweltbundesamt, Vienna, Austria, 1996. [Google Scholar]
  11. C. Lechner: Ringversuch für bauakustische Messungen 2001 (in German). UBA-BE-207, Report of the Umweltbundesamt, Vienna, Austria, 2001. [Google Scholar]
  12. C. Simmons: Uncertainty of measured and calculated sound insulation in buildings – Results of a round robin test, in: Proceedings of the Symposium Managing Uncertainty in Noise Measurement and Prediction, Le Mans, France, 2005. [Google Scholar]
  13. F. Scamoni, C. Scrosati, M. Mussin, E. Galbusera, M. Bassanino, G. Zambon, S. Radaelli: Repeatability and reproducibility of field measurements in buildings, in: Proceedings of EURONOISE 2009 on CDROM, Edinburgh, Scotland. [Google Scholar]
  14. S. Stange-Kölling, V. Wittstock, H. Bietz: Schallschutz-Vergleichsmessungen in der Physikalisch-Technischen Bundesanstalt im Jahr 2007, in: DAGA 08, Dresden, 2008 (in German). [Google Scholar]
  15. S. Stange-Kölling, V. Wittstock: Schallschutz – Vergleichsmessungen in der Physikalisch-Technischen Bundesanstalt im Jahr 2010, in: DAGA 11, Düsseldorf, 2011 (in German). [Google Scholar]
  16. S. Stange-Kölling, V. Wittstock: Schallschutz-Vergleichsmessungen in der Physikalisch-Technischen Bundesanstalt im Jahr 2013, in: DAGA 14, Oldenburg, 2014 (in German). [Google Scholar]
  17. S. Stange-Kölling, V. Wittstock: Comparison measurements at the Physikalisch-Technische Bundesanstalt in the year 2016, in: Euronoise 2018, 11th European Congress and Exposition on Noise Control Engineering, Heraklion, Crete, Greece, 2018. [Google Scholar]
  18. S. Stange-Kölling, V. Wittstock: Schallschutz-Vergleichsmessungen in der Physikalisch-Technischen Bundesanstalt im Jahr 2019, in: DAGA 2021, Vienna (in German). [Google Scholar]
  19. S. Stange-Kölling, V. Wittstock: Schallschutz-Vergleichsmessungen in der Physikalisch-Technischen Bundesanstalt im Jahr 2022, in: DAGA 2023, Hamburg (in German). [Google Scholar]
  20. A. Petošić, T. Marinković, D. Stosić, P. Franćek: Measurement uncertainties for airborne and impact sound insulation building acoustic parameters from interlaboratory comparison, in: Forum Acusticum, Turin, Italy, 2023. [Google Scholar]
  21. A.C.C. Warnock, J.A. Birta: Summary report for consortium on fire resistance and sound insulation of floors: sound transmission class and impact insulation results. Internal Report IRC-IR-766, NRC-CNRC, Canada, 1998. [Google Scholar]
  22. ISO 10140-3:2021: Acoustics – Laboratory measurement of sound insulation of building elements – Part 3: measurement of impact sound insulation. [Google Scholar]
  23. ISO 16283-2:2020: Acoustics – Field measurement of sound insulation in buildings and of building elements – Part 2: impact sound insulation. [Google Scholar]
  24. ISO 5725-2:2019: Accuracy (trueness and precision) of measurement methods and results – Part 2: basic method for the determination of repeatability and reproducibility of a standard measurement method. [Google Scholar]
  25. V. Wittstock: Determination of measurement uncertainties in building acoustics by interlaboratory tests. Part 2 – Sound absorption measured in reverberation rooms. Acta Acustica United with Acustica 104 (2018) 999–1008. [Google Scholar]
  26. ISO 10140-1:2021: Acoustics – Laboratory measurement of sound insulation of building elements – Part 1: application rules for specific products. [Google Scholar]
  27. K. Bodlund: Laboratory measurement of the improvement of impact sound insulation by floor coverings on a standard floor. Nordtest Project 279-81, Technical Report SP-RAPP 1983:01, Boras, 1983. [Google Scholar]
  28. M. Kartous, H. Jonasson: A simplified method to determine impact sound improvement on light-weight floors. NORDTEST Technical Report 488, Boras, 2002. [Google Scholar]
  29. W. Scholl, V. Wittstock, H. Bietz, S. Stange-Kölling: Measurement of walking noise on floor coverings. Building Acoustics 22, 1 (2015) 1–28. [Google Scholar]
  30. A. Dijckmans, L. De Geetere: European round robin test for the improvement of impact sound insulation of a vinyl floor covering, in: EuroNoise 2021, 25th to 27th October 2021, Madeira, Portugal. [Google Scholar]
  31. EN 16354:2018: Laminate floor coverings – Underlays – Specification, requirements and test methods. [Google Scholar]
  32. H. Bietz, V. Wittstock, G. Bauerfeind: On the measurement and rating of walking noise according to EN 16205, in: DAGA 2023, Hamburg. [Google Scholar]
  33. V. Wittstock, H. Bietz, M. Schmelzer: The influence of the restitution coefficient and multiple impacts on the force exerted by ISO tapping machines. Acta Acustica 9 (2025) 14. [Google Scholar]

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