A Stable Explicit Scheme for the Ocean Acoustic Wave Equation.

Abstract

A class of ocean acoustic wave propagation problems is represented by a parabolic equation of the Schrodinger type. Using conventional explicit finite difference schemes, e.g., the Euler scheme, to solve the parabolic wave equation is unstable. Thus, important advantages of explicit schemes are completely missing. This paper presents a conditionally stable explicit scheme by introducing an extra dissipative term. This new explicit scheme is then applied to solve the ocean acoustic parabolic wave equation fully utilizing the advantages of explicit schemes. The theoretical development, the computational aspects, and the advantages are discussed. Application of the scheme to a realistic ocean acoustic problem is included. The solution obtained is compared with the unconditionally stable Crank-Nicolson solution.

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Document Details

Document Type
Technical Report
Publication Date
Jan 01, 1984
Accession Number
ADA141800

Entities

People

  • Dongjin Lee
  • Lin Shen
  • T. F. Chan

Organizations

  • Yale University

Tags

Communities of Interest

  • Materials and Manufacturing Processes

DTIC Thesaurus Topics

  • Acoustic Propagation
  • Acoustic Waves
  • Boundaries
  • Boundary Value Problems
  • Coefficients
  • Computer Science
  • Computers
  • Differential Equations
  • Equations
  • Frequency
  • Oceans
  • Physics
  • Underwater Acoustics
  • Water
  • Wave Equations
  • Wave Propagation
  • Waves

Fields of Study

  • Mathematics

Readers

  • Acoustical Oceanography.
  • Finite Element Method (FEM) for solving Partial Differential Equations (PDEs)