Three-dimensional characterization of acoustic diffusers from near-field measurements

Eric Brandão; Efren Fernandez-Grande; Caroline Gaudeoso; Samuel Verburg; Antoine Richard

doi:10.3397/in_2025_1074258

Three-dimensional characterization of acoustic diffusers from near-field measurements

Eric Brandão
, Efren Fernandez-Grande
, Caroline Gaudeoso
, Samuel Verburg
, Antoine Richard

Research output: Journal Article or Conference Article in Journal › Conference article › Research

Abstract

Characterizing acoustic diffusers is difficult due to the complexity of the diffracted sound field they generate. The standardized method to measure the three-dimensional directivity of diffusers (ISO 17497-2) requires a large anechoic room and a hemispherical microphone array located far from the sample under test. This study proposes using plane-wave expansion from near-field measurement data to measure real-sized rigid diffusers in free-field. The sound field is sampled by a sequential microphone array located in the vicinity of the diffuser surface. The formulated inverse problem enables the separation of incident and diffracted sound fields directly in the wave-number domain, which encapsulates the 3D directivity of the diffuser. The results obtained are compared against reference simulations using the Boundary Element Method. This research also explores the influence of the array discretization, aperture, and number of layers, which serve as initial measurement guidelines. The investigation demonstrates that the proposed method is a robust tool for characterizing acoustic diffusers for research and industrial purposes while reducing the complexity of directivity measurements.

Original language	English
Journal	INTER-NOISE and NOISE-CON Congress and Conference Proceedings
Volume	272
Issue number	3
Pages (from-to)	1045-1052
Number of pages	8
ISSN	0736-2935
DOIs	https://doi.org/10.3397/in_2025_1074258
Publication status	Published - 22 Oct 2025
Event	International Congress and Exposition on Noise Control Engineering - Sao Paulo, Brazil Duration: 24 Aug 2025 → 27 Aug 2025 Conference number: 54 https://www.inceusa.org/conferences/

Conference

Conference	International Congress and Exposition on Noise Control Engineering
Number	54
Country/Territory	Brazil
City	Sao Paulo
Period	24/08/2025 → 27/08/2025
Internet address	https://www.inceusa.org/conferences/

Keywords

acoustic holography
acoustic diffusers
near-field

Access to Document

10.3397/in_2025_1074258

Cite this

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title = "Three-dimensional characterization of acoustic diffusers from near-field measurements",

abstract = "Characterizing acoustic diffusers is difficult due to the complexity of the diffracted sound field they generate. The standardized method to measure the three-dimensional directivity of diffusers (ISO 17497-2) requires a large anechoic room and a hemispherical microphone array located far from the sample under test. This study proposes using plane-wave expansion from near-field measurement data to measure real-sized rigid diffusers in free-field. The sound field is sampled by a sequential microphone array located in the vicinity of the diffuser surface. The formulated inverse problem enables the separation of incident and diffracted sound fields directly in the wave-number domain, which encapsulates the 3D directivity of the diffuser. The results obtained are compared against reference simulations using the Boundary Element Method. This research also explores the influence of the array discretization, aperture, and number of layers, which serve as initial measurement guidelines. The investigation demonstrates that the proposed method is a robust tool for characterizing acoustic diffusers for research and industrial purposes while reducing the complexity of directivity measurements.",

keywords = "acoustic holography, acoustic diffusers, near-field",

author = "Eric Brand{\~a}o and Efren Fernandez-Grande and Caroline Gaudeoso and Samuel Verburg and Antoine Richard",

year = "2025",

month = oct,

day = "22",

doi = "10.3397/in\_2025\_1074258",

language = "English",

volume = "272",

pages = "1045--1052",

journal = "INTER-NOISE and NOISE-CON Congress and Conference Proceedings",

issn = "0736-2935",

number = "3",

note = "International Congress and Exposition on Noise Control Engineering, INTER-NOISE ; Conference date: 24-08-2025 Through 27-08-2025",

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}

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T1 - Three-dimensional characterization of acoustic diffusers from near-field measurements

AU - Brandão, Eric

AU - Fernandez-Grande, Efren

AU - Gaudeoso, Caroline

AU - Verburg, Samuel

AU - Richard, Antoine

N1 - Conference code: 54

PY - 2025/10/22

Y1 - 2025/10/22

N2 - Characterizing acoustic diffusers is difficult due to the complexity of the diffracted sound field they generate. The standardized method to measure the three-dimensional directivity of diffusers (ISO 17497-2) requires a large anechoic room and a hemispherical microphone array located far from the sample under test. This study proposes using plane-wave expansion from near-field measurement data to measure real-sized rigid diffusers in free-field. The sound field is sampled by a sequential microphone array located in the vicinity of the diffuser surface. The formulated inverse problem enables the separation of incident and diffracted sound fields directly in the wave-number domain, which encapsulates the 3D directivity of the diffuser. The results obtained are compared against reference simulations using the Boundary Element Method. This research also explores the influence of the array discretization, aperture, and number of layers, which serve as initial measurement guidelines. The investigation demonstrates that the proposed method is a robust tool for characterizing acoustic diffusers for research and industrial purposes while reducing the complexity of directivity measurements.

AB - Characterizing acoustic diffusers is difficult due to the complexity of the diffracted sound field they generate. The standardized method to measure the three-dimensional directivity of diffusers (ISO 17497-2) requires a large anechoic room and a hemispherical microphone array located far from the sample under test. This study proposes using plane-wave expansion from near-field measurement data to measure real-sized rigid diffusers in free-field. The sound field is sampled by a sequential microphone array located in the vicinity of the diffuser surface. The formulated inverse problem enables the separation of incident and diffracted sound fields directly in the wave-number domain, which encapsulates the 3D directivity of the diffuser. The results obtained are compared against reference simulations using the Boundary Element Method. This research also explores the influence of the array discretization, aperture, and number of layers, which serve as initial measurement guidelines. The investigation demonstrates that the proposed method is a robust tool for characterizing acoustic diffusers for research and industrial purposes while reducing the complexity of directivity measurements.

KW - acoustic holography

KW - acoustic diffusers

KW - near-field

U2 - 10.3397/in_2025_1074258

DO - 10.3397/in_2025_1074258

M3 - Conference article

SN - 0736-2935

VL - 272

SP - 1045

EP - 1052

JO - INTER-NOISE and NOISE-CON Congress and Conference Proceedings

JF - INTER-NOISE and NOISE-CON Congress and Conference Proceedings

IS - 3

T2 - International Congress and Exposition on Noise Control Engineering

Y2 - 24 August 2025 through 27 August 2025

ER -

Three-dimensional characterization of acoustic diffusers from near-field measurements

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Keywords

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