Modelling Underwater Acoustic Propagation using One-way Wave Equations

TL;DR

This paper models underwater acoustic signal propagation using one-way wave equations combined with damped harmonic oscillator concepts, providing insights into signal behavior and interactions in underwater environments.

Contribution

It introduces a novel approach integrating one-way wave equations with oscillator models to analyze underwater acoustic propagation.

Findings

Calculated effective signal strength and phase shift.

Presented evolution of signal strength and envelope.

Numerical results demonstrate model effectiveness.

Abstract

The primary contribution of this paper is to characterize the propagation of acoustic signal carrying information through any medium and the interaction of the travelling acoustic signal with the surrounding medium. We will use the concept of damped harmonic oscillator to model the medium and Milne's oscillator technique to map the interaction of the acoustic signal with the medium. The acoustic signal itself will be modelled using the one-way wave equation formulated in terms of acoustic pressure and velocity of acoustic waves through the medium. Using the above-mentioned concepts, we calculated the effective signal strength, phase shift and time period of the communicated signal. Numerical results are generated to present the evolution of signal strength and received signal envelope in underwater environment.