Abstract
Localization of sensor nodes in the internet of underwater things (IoUT) is of considerable significance due to its various applications, such as navigation, data tagging, and detection of underwater objects. Therefore, in this paper, we propose a hybrid Bayesian multidimensional scaling (BMDS) based localization technique that can work on a fully hybrid IoUT network where the nodes can communicate using either optical, magnetic induction, and acoustic technologies. These communication technologies are already used for communication in the underwater environment; however, lacking localization solutions. Optical and magnetic induction communication achieves higher data rates for short communication. On the contrary, acoustic waves provide a low data rate for long-range underwater communication. The proposed method collectively uses optical, magnetic induction, and acoustic communication-based ranging to estimate the underwater sensor nodes' final locations. Moreover, we also analyze the proposed scheme by deriving the hybrid Cramer-Rao lower bound (H-CRLB). Simulation results provide a complete comparative analysis of the proposed method with the literature.
Highlights
I NTERNET of underwater things (IoUT) has attained much attention because of their many applications such as navigation, objects localization, detection of mines, and monitoring of environmental pollution [1]–[4]
MATLAB is used as a simulation tool for performance evaluation of the proposed Magnetic Induction-Acoustic-Optical (MIAO) ranging and localization technique for a given IoUT network
This paper introduces a hybrid MIAO ranging technique that utilizes a SOA approach for accurate localization
Summary
I NTERNET of underwater things (IoUT) has attained much attention because of their many applications such as navigation, objects localization, detection of mines, and monitoring of environmental pollution [1]–[4]. In this paper, a fully hybrid location awareness algorithm has been proposed, that considers three different technologies including MI, acoustic and optical communication. Such an approach where the system can utilizes any available technology, is termed as a signals of opportunity (SOA) based localization. A SOA based hybrid approach is introduced for localization of IoUT devices in the underwater environment, which takes into account acoustic, optical, and magnetic induction based ranging.
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