Channel Modeling for Underwater Acoustic Network Simulation

Nils Morozs,Yuriy V Zakharov,Paul D Mitchell,Wael Gorma,Lu Shen,Benjamin T Henson

doi:10.1109/access.2020.3011620

Nils Morozs, Yuriy V Zakharov + Show 4 more

Open Access

https://doi.org/10.1109/access.2020.3011620

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Abstract

Simulation forms an important part of the development and empirical evaluation of underwater acoustic network (UAN) protocols. The key feature of a credible network simulation model is a realistic channel model. A common approach to simulating realistic underwater acoustic (UWA) channels is by using specialised beam tracing software such as BELLHOP. However, BELLHOP and similar modeling software typically require knowledge of ocean acoustics and a substantial programming effort from UAN protocol designers to integrate it into their research. This paper is a distilled tutorial on UWA channel modeling with a focus on network simulation, providing a trade-off between the flexibility of low level channel modeling via beam tracing and the convenience of automated channel modeling, e.g. via the World Ocean Simulation System (WOSS). The tutorial is accompanied by our MATLAB simulation code that interfaces with BELLHOP to produce channel data for UAN simulations. As part of the tutorial, we describe two methods of incorporating such channel data into network simulations, including a case study for each of them: 1) directly importing the data as a look-up table, 2) using the data to create a statistical channel model. The primary aim of this paper is to provide a useful learning resource and modeling tool for UAN protocol researchers. Initial insights into the UAN protocol design and performance provided by the statistical channel modeling approach presented in this paper demonstrate its potential as a powerful modeling tool for future UAN research.

Highlights

Recent developments in underwater acoustic modem capabilities [1]–[4] will make large scale underwater acoustic networks (UANs) feasible in the near future
This paper has presented a detailed tutorial on modeling multipath underwater acoustic (UWA) channels, primarily aimed at UAN protocol researchers
The tutorial was focused on modeling the channel gain, propagation delay and multipath delay spread, as the key parameters affecting the performance of network protocols

Summary

Introduction

Recent developments in underwater acoustic modem capabilities [1]–[4] will make large scale underwater acoustic networks (UANs) feasible in the near future. Available bandwidth (typically on the order of several kHz), large multipath delay spread and Doppler effect. These challenging channel characteristics necessitate the design of protocols dedicated to UANs [11], [12]. Implementing and testing the network protocols at sea is more suitable as a validation step to prove that they work in a real deployment

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