Title :
Geoacoustic Inversion for the New Jersey Shelf: 3-D Sediment Model
Author :
Ballard, Megan S. ; Becker, Kyle M. ; Goff, John A.
Author_Institution :
Grad. Program in Acoust., Pennsylvania State Univ., State College, PA, USA
Abstract :
A 3-D model of sediment sound speed for a 90-km2 area on the New Jersey shelf was constructed by application of a geoacoustic inversion technique. This approach is based on a combination of seismic reflection measurements and a perturbative inversion scheme using horizontal wave number estimates. In a two-step process, seismic reflection measurements were used to identify depths at which discontinuities in the sound-speed profile (SSP) likely occur. Then, the perturbative inversion algorithm made use of this a priori information by employing qualitative regularization, an optimal method for addressing stability and uniqueness issues associated with solving the ill-posed inversion problem that provides for resolution of the layered seabed structure.
Keywords :
acoustic wave velocity; inverse problems; sediments; underwater acoustic propagation; 3D sediment model; New Jersey shelf; geoacoustic inversion technique; horizontal wave number; ill-posed inversion problem; perturbative inversion; perturbative inversion algorithm; sediment sound speed; seismic reflection measurements; sound-speed profile; Acoustic reflection; Chirp; Geoacoustic inversion; Geology; Geophysical measurements; Laboratories; Sea floor; Sediments; Seismic measurements; Underwater acoustics; Geoacoustic inversion; normal modes;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2009.2034490
