Add to ORKGIn small to medium size rooms, natural room modes may severely strengthen the annoyance of low frequency noises, such as traffic or equipment noise. Moreover, there is an actual technological gap in the state-of-the-art concerning low-frequency treatments, and the only potential solutions basically take the form of heavy and bulky bodies. With a view to develop such low-frequency solutions (with compactness requirements), the concept of “shunt loudspeaker” has already been demonstrated to provide controllable electroacoustic dissipation to tackle one or a few modes around the loudspeaker resonance (in the low frequency range). The present paper extend this study to the concept of “electroacoustic absorbers”, based on the connection of louds...
This paper presents a concept of sensorless electroacoustic absorber for damping the low-frequency m...
This paper presents a novel approach to improving the performance, tunability and efficiency of low ...
The purpose of the research is to investigate how an empirically designed sound absorber works. Part...
In closed spaces, standing waves occur at low frequencies, thus creating annoying acoustic resonance...
Nowadays, requirements for acoustic treatments in rooms are ever more demanding in terms of performa...
At low frequencies, standing waves within the room cause large frequency-response variations in the ...
Engineers dealing with noise reduction in habitations close to transportation traffic or indus-trial...
The sound quality in a room is of fundamental importance for both recording and reproducing processe...
In the acoustic consulting, testing, design and engineering work of the Fraunhofer-Institute of Buil...
Electroacoustic absorbers consist of loudspeakers, shunted with an electrical circuit designed to ob...
Low frequency background noise in rooms generated by numbers of human activities - traf-fic, railway...
Absorbing low frequent sound is a challenge, but earlier studies, (Rivet, 2017), (R. Boulandet, 2014...
Electroacoustic absorbers represent an interesting solution for low-frequency sound absorption in ro...
This paper questions traditional acoustic treatments which, actually, have little impact on the room...
Electroacoustic absorbers consist of loudspeakers, shunted with an electrical circuit designed to ob...
This paper presents a concept of sensorless electroacoustic absorber for damping the low-frequency m...
This paper presents a novel approach to improving the performance, tunability and efficiency of low ...
The purpose of the research is to investigate how an empirically designed sound absorber works. Part...
In closed spaces, standing waves occur at low frequencies, thus creating annoying acoustic resonance...
Nowadays, requirements for acoustic treatments in rooms are ever more demanding in terms of performa...
At low frequencies, standing waves within the room cause large frequency-response variations in the ...
Engineers dealing with noise reduction in habitations close to transportation traffic or indus-trial...
The sound quality in a room is of fundamental importance for both recording and reproducing processe...
In the acoustic consulting, testing, design and engineering work of the Fraunhofer-Institute of Buil...
Electroacoustic absorbers consist of loudspeakers, shunted with an electrical circuit designed to ob...
Low frequency background noise in rooms generated by numbers of human activities - traf-fic, railway...
Absorbing low frequent sound is a challenge, but earlier studies, (Rivet, 2017), (R. Boulandet, 2014...
Electroacoustic absorbers represent an interesting solution for low-frequency sound absorption in ro...
This paper questions traditional acoustic treatments which, actually, have little impact on the room...
Electroacoustic absorbers consist of loudspeakers, shunted with an electrical circuit designed to ob...
This paper presents a concept of sensorless electroacoustic absorber for damping the low-frequency m...
This paper presents a novel approach to improving the performance, tunability and efficiency of low ...
The purpose of the research is to investigate how an empirically designed sound absorber works. Part...