Litcius/Paper detail

A Survey on Integration Design of Localization, Communication, and Control for Underwater Acoustic Sensor Networks

Jing Yan, Xinping Guan, Xian Yang, Cailian Chen, Xiaoyuan Luo

2025IEEE Internet of Things Journal45 citationsDOI

Abstract

Underwater acoustic sensor networks (UASNs), which are formed by a number of interconnected mobile vehicles and static sensors, have emerged as a promising solution to explore and utilize the ocean resources. Typically, the localization, communication and control are the fundamental services for the applications of UASNs. Although they are closely related, the localization, communication and control issues are usually separately tackled. The separate design directly affects the localization accuracy, transmission reliability and control efficiency, especially for resource-constrained UASNs. In this regard, it is essential and necessary to co-design the localization, communication and control systems for UASNs. At present, the theoretical framework of the above integration design is still in the construction phase, and some key problems remain unresolved. Therefore, this article aims to give a survey on the integration design of localization, communication and control for UASNs. We first present the communication architecture, through which the main challenges aiming at the integration design are analyzed. After that, a holistic survey on the underwater localization, communication and control basics is provided. Followed by this, the recent advances on the integration design are given. At last, we make an outlook to the future research directions on the integration design of localization, communication and control for UASNs.

Topics & Concepts

Computer scienceAcoustic sensorUnderwater acoustic communicationWireless sensor networkUnderwaterUnderwater acousticsControl (management)Computer networkAcousticsArtificial intelligenceOceanographyPhysicsGeologyUnderwater Vehicles and Communication SystemsWater Quality Monitoring TechnologiesUnderwater Acoustics Research