Title :
Bore reconstruction of tubular ducts from its acoustic input impedance curve
Author :
Kausel, Wilfried
Author_Institution :
Dept. of Musical Acoust., Univ. of Music, Vienna, Austria
Abstract :
In order to get accurate bore information of tubular objects from acoustical input impedance measurements an optimization approach is proposed and investigated. The waveguide model used by the optimizer is reviewed and the impedance measurement setup is described. Reconstruction results are presented and discussed. Sensitivity of input impedance magnitude to bore variation indicates that axial accuracy can be improved without increasing the sampling rate. Advantages of the method are its increased numerical stability, its tolerance to white noise on top of measured data, no requirement to measure phase, and the fact that measured data need not to be contiguous in the frequency domain. Frequency bands which are difficult to measure can be omitted.
Keywords :
acoustic impedance; acoustic variables measurement; acoustic waveguides; musical acoustics; musical instruments; optimisation; acoustic input impedance curve; acoustical input impedance measurement; acoustical measurement; axial accuracy; bore reconstruction; bore variation; input impedance sensitivity; musical acoustics; numerical stability; optimization; tubular ducts; tubular objects; waveguide model; white noise tolerance; Acoustic waveguides; Boring; Ducts; Frequency measurement; Impedance measurement; Noise measurement; Numerical stability; Phase measurement; Sampling methods; White noise; Acoustical input impedance; acoustical measurement; bore reconstruction; musical acoustics; optimization;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2004.831440
