Add to ORKGthe Mapping of Acoustic Sources (DAMAS) was developed which decouples the array design and processing influence from the noise being measured, using a simple and robust algorithm. For several prior airframe noise studies, it was shown to permit an unambiguous and accurate determination of acoustic source position and strength. As a follow-on effort, this paper examines the technique for three-dimensional (3D) applications. First, the beamforming ability for arrays, of different size and design, to focus longitudinally and laterally is examined for a range of source positions and frequency. Advantage is found for larger array designs with higher density microphone distributions towards the center. After defining a 3D grid generalized with re...
Noise reduction is required in engineering domains such as aeronautics and ground transport. This in...
International audienceIn accordance with aeroacoustic analogies, the noise arising from the interact...
Over the past years, noise nuisance around airports strongly increased resulting in the need for air...
The present study reports a new development of the DAMAS microphone phased array processing methodol...
Current processing of acoustic array data is burdened with considerable uncertainty. This study repo...
Complex test models in aeroacoustic experiments often present an arrangement of noise sources within...
Acoustic source mapping with microphone arrays usually involves the implicit assumption that sources...
Acoustic source mapping usually involves planar microphone arrays and calculation points located on ...
The deconvolutional DAMAS algorithm can effectively eliminate the misconceptions in the usually-used...
This paper explores the advantages of combining asynchronous microphone array measurements for acous...
International audienceThis paper deals with the development of a three-dimensional (3D) array for im...
A study was conducted to examine the effects of overall size of directional (or phased) arrays on th...
Aeroacoustic measurements in wind tunnels are a common tool in the determination of sound sources on...
Flyover measurements with a phased array of microphones extending over an area of 16 m by 16 m are r...
Noise reduction is required in engineering domains such as aeronautics and ground transport. This in...
International audienceIn accordance with aeroacoustic analogies, the noise arising from the interact...
Over the past years, noise nuisance around airports strongly increased resulting in the need for air...
The present study reports a new development of the DAMAS microphone phased array processing methodol...
Current processing of acoustic array data is burdened with considerable uncertainty. This study repo...
Complex test models in aeroacoustic experiments often present an arrangement of noise sources within...
Acoustic source mapping with microphone arrays usually involves the implicit assumption that sources...
Acoustic source mapping usually involves planar microphone arrays and calculation points located on ...
The deconvolutional DAMAS algorithm can effectively eliminate the misconceptions in the usually-used...
This paper explores the advantages of combining asynchronous microphone array measurements for acous...
International audienceThis paper deals with the development of a three-dimensional (3D) array for im...
A study was conducted to examine the effects of overall size of directional (or phased) arrays on th...
Aeroacoustic measurements in wind tunnels are a common tool in the determination of sound sources on...
Flyover measurements with a phased array of microphones extending over an area of 16 m by 16 m are r...
Noise reduction is required in engineering domains such as aeronautics and ground transport. This in...
International audienceIn accordance with aeroacoustic analogies, the noise arising from the interact...
Over the past years, noise nuisance around airports strongly increased resulting in the need for air...