The Effect of Noisy Reflection Data on an Inverse Method for Determining the Structure of a Layered Ocean Bottom.
Abstract
A basic inverse problem in underwater acoustics is the determination of the structure of the sea bed from a limited knowledge of its reflection coefficient. For many applications, an adequate model for studying the acoustic interaction is provided by the scattering of plane waves by a layered liquid medium. In contrast to formally exact solutions to this inverse scattering problem, Candel, et al., (J. Sound Vib. 68, 571-595 (1980)) developed an approximate scheme which is readily implemented numerically. Under the assumption of nonabsorptive media, the reconstruction of both sediment density and sound-speed profiles is effected by the numerical integration of a system of four first-order differential equations requiring impulse response data for two distinct grazing angles. In this paper, the effect of additive noise on the inversion algorithm is examined for synthetic reflection data generated for a geoacoustic model of deep-sea sediments representative of the Hatteras Abyssal Plain. (Author)
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 18, 1983
- Accession Number
- ADA131976
Entities
People
- David J. Thomson
- Peter D. Herstein
Organizations
- Naval Underwater Systems Center