Sound Insulation Evaluation Using Transfer Function Measurements

Venegas, Rodolfo; Nabuco, Marco Antonio de Araujo; Massarani, Paulo

doi:10.1260/135101006776324824

Cited by 3 publications

(2 citation statements)

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“…(5), where H S and H R are the energetic space average acoustic transfer functions in the source and receiving rooms, respectively, when the source room is being excited. This method is described in ISO 18233 [5,8] and uses a deterministic excitation signal, as the maximum length sequence or the sweep sine.…”

Section: ' 10log S R Dmentioning

confidence: 99%

Uncertainty evaluation in field measurements of airborne sound insulation

Michalski

Ferreira

Nabuco

et al. 2008

The Journal of the Acoustical Society of America

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performance of several topics for buildings up to five floors. The acoustic performance is one of them. The standards are in approval process and measurements in real buildings will be necessary. Different professionals using different equipment will emit certificates establishing which levels of insulation a certain flat provides and its uncertainties. The expanded measurement uncertainty is necessary to make different measurement results comparable. The international Guide to the Expression of Uncertainty in Measurement, the ISO/IEC Guide 98 (GUM), is a widely accepted document to assess and evaluate the uncertainty of a measurement result, and was used in this work. The standards concerning sound insulation measurements are ISO 140 series and ISO 18233. Uncertainty estimates are available only for the classical technique described in ISO 140, based on repeatability and reproducibility tests performed in laboratories. Field measurements present some characteristics that can contaminate the results. Independent measurements were carried out in a single floor building using ISO 18233 specifications and the ISO/IEC Guide 98 was applied to obtain the uncertainty for measurement results of airborne sound insulation between rooms in situ.

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Section: ' 10log S R Dmentioning

confidence: 99%

Uncertainty evaluation in field measurements of airborne sound insulation

Michalski

Ferreira

Nabuco

et al. 2008

The Journal of the Acoustical Society of America

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“…A comparison is given with results using the classical random noise method. Data repeatability for both methods 6 is presented and an analysis of the viability of using fewer positions for the source, for the transfer function method, is also presented.…”

Section: Introductionmentioning

confidence: 99%

Sound Insulation Evaluation Using Transfer Function Measurements

Venegas

Nabuco²,

Massarani³

2006

Building Acoustics

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The accepted methods for measurement of sound insulation between rooms, audiometric cabins and other adjacent closed spaces deal with average sound pressure measurements and random sound excitation. The acoustic field can be as diffuse as found in reverberation chambers or form well-determined stationary waves in rectangular rooms. The use of random noise excitation requires averages in time to reduce the expected inherent uncertainties. The use of techniques, such as MLS or swept sine excitation, can avoid time consuming averaging processes and reduce measurement. With the advent of new front-end devices and signal analyzers it is now relatively easy to obtain acoustic transfer functions between two points in space, which can be in adjacent enclosures. With these transfer functions, it is possible to obtain the level differences, required by the international standard, as suggested in a new draft ISO document. This paper presents results obtained for the insulation of a cabin, tested in a reverberation chamber, using random noise and swept sine excitation. An analysis is given of the viability of using fewer positions of sound sources when measuring the transfer function. Repeatability tests, for both methods, are also presented.

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