Application of compressive sensing in SFAI measurement for faster sound speed assessment.

Quick quality assessment of fluid (liquid and gas) is a key requirement for many industries. Acoustic parameters like sound speed in fluid or sound attenuation in fluid can serve as a crucial marker for assessing fluid quality as any deviation of those parameters points to adulteration or degradation of the fluid. Swept Frequency Acoustic Interferometry (SFAI) is a well-known noninvasive technique for taking measurements of fluid's acoustic parameters (e.g. sound speed in fluid, sound attenuation in fluid, etc.) from outside the container walls. In this work, we focused on assessing sound speed in liquid through SFAI while applying compressive sensing technique to make very fast scans which are otherwise not possible through standard SFAI measurements. We report the possibility of 25 times faster scanning speed to measure sound speed in fluid when compared to standard SFAI based frequency scans. In addition, the proposed technique significantly reduces the volume of data that needs to be processed twenty-four hours a day basis.