This thesis deals with the development of an integrated three dimensional sound intensity probe. Although a 3D sound-intensity probe based on an (manual) assembly of multiple particle velocity sensors and a sound pressure microphone exists, by integrating all sensors into one chip the size can be reduced further. A small sensor size is preferable, because it enables the user to do measurements on small objects, very close to objects and with a minimum disturbance of the sound field
Abstract This report describes a full vector intensity probe which advances the field of sound inten...
The Microflown is world's first particle velocity microphone that enables numerous new acoustical ap...
Measurement of sound intensity involves determining the sound pressure and the particle velocity at ...
The development of an integrated three dimensional sound intensity probe is discussed. Although a 3D...
For the first time, a complete 3-dimensional sound intensity sensor – consisting of 4 particle veloc...
Complete characterization of a sound field requires measurement of both sound pressure and particle ...
This paper reports on a novel method to measure three-dimensional sound intensity and the fabricatio...
Complete characterization of a sound field requires measurement of both sound pressure and particle ...
In this paper, an optical sensor capable of measuring pressure and the three orthogonal particle vel...
Abstract- A new symmetrical four-wire sensor configuration has resulted in a fully integrated sound ...
This paper describes a method that allows accuracy and bandwidth enhancements in 3-D sound intensity...
The aim of this paper is two-fold. First, some basic notions on acoustic field intensity and its mea...
Sound Intensity is a useful measure in acoustics because in a reverberant environment free-field mea...
An integrated three dimensional acoustic particle velocity sensor is realized. The integration of mu...
A new symmetrical four-wire sensor configuration has resulted in a fully integrated sound intensity ...
Abstract This report describes a full vector intensity probe which advances the field of sound inten...
The Microflown is world's first particle velocity microphone that enables numerous new acoustical ap...
Measurement of sound intensity involves determining the sound pressure and the particle velocity at ...
The development of an integrated three dimensional sound intensity probe is discussed. Although a 3D...
For the first time, a complete 3-dimensional sound intensity sensor – consisting of 4 particle veloc...
Complete characterization of a sound field requires measurement of both sound pressure and particle ...
This paper reports on a novel method to measure three-dimensional sound intensity and the fabricatio...
Complete characterization of a sound field requires measurement of both sound pressure and particle ...
In this paper, an optical sensor capable of measuring pressure and the three orthogonal particle vel...
Abstract- A new symmetrical four-wire sensor configuration has resulted in a fully integrated sound ...
This paper describes a method that allows accuracy and bandwidth enhancements in 3-D sound intensity...
The aim of this paper is two-fold. First, some basic notions on acoustic field intensity and its mea...
Sound Intensity is a useful measure in acoustics because in a reverberant environment free-field mea...
An integrated three dimensional acoustic particle velocity sensor is realized. The integration of mu...
A new symmetrical four-wire sensor configuration has resulted in a fully integrated sound intensity ...
Abstract This report describes a full vector intensity probe which advances the field of sound inten...
The Microflown is world's first particle velocity microphone that enables numerous new acoustical ap...
Measurement of sound intensity involves determining the sound pressure and the particle velocity at ...
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