The Naval Research Laboratory (NRL) is performing a series of tank experiments to verify the predictions of scattering models for rough surfaces. Rough surfaces milled from blocks of PVC are used as analogs to the rough surface of an elastic ocean bottom (e.g., limestone), and the inputs to scattering models (surface heights, speeds, and attenuations) are measured from material samples. Two surfaces are currently being constructed to have an isotropic, power-law spectrum, but to date, we have used a third surface with only an approximate, variable, power-law spectrum in an acoustic tank experiment. We consider these manufactured rough surfaces both as deterministic entities and realizations from statistical ensembles in performing comparisons of the measured scattering strength as a function of grazing angle with theory. The results show that appropriate application of these theories leads to successful prediction of the detailed behavior of the scattering strength for the quasi-monostatic geometries of the experiments. [Work supported by the Office of Naval Research and the NATO Undersea Research Centre.].
[1]
D. Tang.
Fine-scale measurements of sediment roughness and subbottom variability
,
2004
.
[2]
Kevin L. Williams,et al.
Characterization of interface roughness of rippled sand off Fort Walton Beach, Florida
,
2002
.
[3]
J.E. Summers,et al.
Mathematical Modeling and Computer-Aided Manufacturing of Rough Surfaces for Experimental Study of Seafloor Scattering
,
2007,
IEEE Journal of Oceanic Engineering.
[4]
D. Wurmser,et al.
Small-slope scattering from rough elastic ocean floors: general theory and computational algorithm.
,
2001,
The Journal of the Acoustical Society of America.
[5]
J. Summers,et al.
Characterization and Fabrication of Synthetic Rough Surfaces for Acoustical Scale-Model Experiments
,
2005
.