Recent advances in utilizing acoustics to study surface roughness in agricultural surfaces

Abstract

The evaluation of surface roughness in agricultural settings is investigated. Previous work has shown that sound propagating in a direction parallel to a smooth porous ground attenuates more rapidly than in a free space. This attenuation is due to absorption of the sound in the air filled pores in the ground. Previous work has also shown that a comparable attenuation phenomenon exists for propagation over a rough surface, albeit from different attenuation mechanisms. It is proposed that these additional attenuation mechanisms can be used to quantify the surface roughness, even on a porous surface. Attempts to model observed data with an effective impedance or reflection coefficient, in order to quantify the surface roughness, have had some success but have met with some problems for certain propagation geometries and surface configurations. Experimental data and modeling results will be presented and discussed for a variety of surfaces ranging in surface properties from impermeable to loosely packed soil and ranging in surface roughness scales from low sloped perturbations to steeply sloped wedges.