Title :
Simulating Realistic-Looking Sediment Ripple Fields
Author :
Tang, Dajun ; Henyey, Frank S. ; Hefner, Brian T. ; Traykovski, Peter A.
Author_Institution :
Appl. Phys. Lab., Univ. of Washington, Seattle, WA, USA
Abstract :
Sandy sediment ripples impact sonar performance in coastal waters through Bragg scattering. Observations from data suggest that sandy ripple elevation relative to the mean seafloor as a function of the horizontal coordinates is not Gaussian distributed; specifically, peak amplitude fading over space associated with a random Gaussian process is largely absent. Such a non-Gaussian nature has implications for modeling acoustic scattering from, and penetration into, sediments. An algorithm is developed to generate ripple fields with a given power spectrum; these fields have non-Gaussian statistics and are visually consistent with data. Higher order statistics of these ripple fields and their implications to sonar detection are discussed.
Keywords :
Gaussian processes; acoustic wave scattering; buried object detection; higher order statistics; random processes; sand; sonar detection; Bragg scattering; acoustic scattering; coastal water; higher order statistics; peak amplitude fading; random Gaussian process; sandy sediment ripple field; sonar detection; Acoustics; penetration; ripple statistics; sand; scattering; sediments;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2009.2025905
