Title :
3D spatial resolution enhancement through environmental effects with the time reversal operator decomposition
Author :
Folégot, Thomas ; Prada, Claire ; Fink, Mathias
Author_Institution :
Atlantide, Brest, France
Abstract :
Time reversal operator (TRO) decompositions are performed in a wave-guide using different kinds of bottom. The purchase objective is to study the effects of bottom reverberation and absorption by mean of ultrasonic experiments. Amplitude compensation is proposed to improve the resolution of the system and signal to noise ratio at the target. Time dependent reverberation eigenvectors are back propagated in the medium and the conditions of focus on the bottom are discussed. A 3D-TRO is also constructed using an original array configuration which takes huge advantage of the multipath propagation in the wave-guide and allows selective multi target 3D-detection. The results could be used to increase echo levels in shallow water active detection or mine countermeasures.
Keywords :
acoustic signal detection; acoustic signal processing; acoustic waveguides; eigenvalues and eigenfunctions; multipath channels; reverberation; signal resolution; singular value decomposition; ultrasonic absorption; ultrasonic arrays; ultrasonic propagation; underwater acoustic propagation; 3D-detection; array configuration; mine countermeasures; multi target detection; multipath propagation; shallow water active detection; signal to noise ratio; singular value decomposition; time dependent reverberation eigenvectors; time reversal operator decomposition; transfer matrix; ultrasonic bottom absorption; ultrasonic bottom reverberation; underwater acoustics; Absorption; Acoustic scattering; Acoustic signal detection; Object detection; Reverberation; Sea measurements; Signal resolution; Signal to noise ratio; Spatial resolution; Steel;
Conference_Titel :
OCEANS '02 MTS/IEEE
Print_ISBN :
0-7803-7534-3
DOI :
10.1109/OCEANS.2002.1193249
