Modeling Of A Shallow Water Acoustic Communication Channel
Yasin Yousif Al-Aboosi, Hussein A. Abdulnabi

TL;DR
This paper introduces a new multipath channel model for shallow underwater acoustic communication that accounts for spreading loss, scattering, and reflections, addressing the complex and fluctuating nature of the ocean environment.
Contribution
The paper presents a novel multipath channel model specifically designed for shallow underwater acoustic communication, incorporating environmental effects.
Findings
Model captures amplitude and phase fluctuations.
Accounts for spreading loss, scattering, and reflections.
Addresses the impact of environmental factors on channel capacity.
Abstract
In these last years, many studies have focalized on the design of reliable underwater acoustic communication systems. However, the ocean acoustic communication channel exhibits strong amplitude and phase fluctuations and the phenomena of diffraction, refraction and reflection. Due to the complexity of the environment, the motions of transducers, sea surface, etc., the underwater acoustic signals exhibit random temporal and spatial frequency fluctuations in both amplitude and phase. Therefore, it is very important to model a so complex channel. Acoustic propagation is characterized by three major factors: attenuation that increases with signal frequency, time-varying multipath propagation, and low speed of sound (1500 m/s). The background noise, although often characterized as Gaussian, is not white, but has a decaying power spectral density. The channel capacity depends on the distance…
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Taxonomy
TopicsUnderwater Vehicles and Communication Systems · Underwater Acoustics Research · Water Quality Monitoring Technologies
