Abstract
Underwater wireless technologies demand to transmit at higher data rate for ocean exploration. Currently, large coverage is achieved by acoustic sensor networks with low data rate, high cost, high latency, high power consumption, and negative impact on marine mammals. Meanwhile, optical communication for underwater networks has the advantage of the higher data rate albeit for limited communication distances. Moreover, energy consumption is another major problem for underwater sensor networks, due to limited battery power and difficulty in replacing or recharging the battery of a sensor node. The ultimate solution to this problem is to add energy harvesting capability to the acoustic-optical sensor nodes. Localization of underwater sensor networks is of utmost importance because the data collected from underwater sensor nodes is useful only if the location of the nodes is known. Therefore, a novel localization technique for energy harvesting hybrid acoustic-optical underwater wireless sensor networks (AO-UWSNs) is proposed. AO-UWSN employs optical communication for higher data rate at a short transmission distance and employs acoustic communication for low data rate and long transmission distance. A hybrid received signal strength (RSS) based localization technique is proposed to localize the nodes in AO-UWSNs. The proposed technique combines the noisy RSS based measurements from acoustic communication and optical communication and estimates the final locations of acoustic-optical sensor nodes. A weighted multiple observations paradigm is proposed for hybrid estimated distances to suppress the noisy observations and give more importance to the accurate observations. Furthermore, the closed form solution for Cramer-Rao lower bound (CRLB) is derived for localization accuracy of the proposed technique.
Highlights
The development of underwater wireless communication capable sensor nodes has provided new opportunities for ocean exploration
A novel hybrid acoustic-optical underwater wireless sensor network localization technique is proposed in order to benefit from the advantages of both acoustic and optical communication
We present numerous simulation results executed in MATLAB (R2016b, MathWorks, Inc., Natick, MA, USA) to investigate the performance of proposed acoustic-optical underwater wireless sensor network (AO-UWSN) localization technique
Summary
The development of underwater wireless communication capable sensor nodes has provided new opportunities for ocean exploration. A novel hybrid acoustic-optical underwater wireless sensor network (AO-UWSN) is considered that benefits from the advantages of both underwater acoustic communication and optical communication. Albeit the notable research efforts on designing different protocols for underwater communication networks, no significant research has been carried out on the energy harvesting methods for UWOSNs. energy harvesting can play a significant role in performance enhancement and improve the lifetime of UWOSNs. Since underwater sensor nodes cannot survive on the battery power for a long time, energy harvesting is a promising solution to provide energy from the ambient sources in the aquatic environment. A novel hybrid acoustic-optical underwater wireless sensor network localization technique is proposed in order to benefit from the advantages of both acoustic and optical communication. We consider energy harvesting for the battery limited sensor nodes and show the impact of harvested energy on the network lifetime maximization and energy efficiency
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