2022
DOI: 10.1109/access.2022.3230600
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Energy Harvesting in Underwater Acoustic Wireless Sensor Networks: Design, Taxonomy, Applications, Challenges and Future Directions

Abstract: In underwater acoustic wireless sensor networks (UAWSNs), energy harvesting either enhances the lifetime of a network by increasing the battery power of sensor nodes or ensures battery-less operation of nodes. This, in effect, results in sustainable and reliable operation of the network deployed for various underwater applications. This work provides a survey of the energy harvesting techniques for UAWSNs. Our work is unique than the existing work on underwater energy harvesting in that it includes state-of-th… Show more

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Cited by 10 publications
(7 citation statements)
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“…259 Based on these nanogenerators, underwater acoustic sensors have been designed due to the potential capabilities such as earthquake prediction and acquisition of seismic data, study of marine life, oil spill detection, finding the wreckage of crashed planes, etc. 260 Acceleration Sensors. Piezoelectric acceleration sensors are tools for detecting acceleration and are used for human activity/behavior recognition, control and monitoring of faults and deviations, robotics/soft robotics, smart buildings, etc.…”
Section: Sensorsmentioning
confidence: 99%
See 1 more Smart Citation
“…259 Based on these nanogenerators, underwater acoustic sensors have been designed due to the potential capabilities such as earthquake prediction and acquisition of seismic data, study of marine life, oil spill detection, finding the wreckage of crashed planes, etc. 260 Acceleration Sensors. Piezoelectric acceleration sensors are tools for detecting acceleration and are used for human activity/behavior recognition, control and monitoring of faults and deviations, robotics/soft robotics, smart buildings, etc.…”
Section: Sensorsmentioning
confidence: 99%
“…Research in the field of underwater nanogenerators, especially acoustic transducers, has continued since the mid-1900s . Based on these nanogenerators, underwater acoustic sensors have been designed due to the potential capabilities such as earthquake prediction and acquisition of seismic data, study of marine life, oil spill detection, finding the wreckage of crashed planes, etc …”
Section: Self-powered Physical/biophysical Sensorsmentioning
confidence: 99%
“…Both articles presented C-RAN as an emerging 5G network concept emphasizing Ultra Dense Network deployment and Multi-Radio Access Technologies capable of optimizing CAPEX and OPEX for the mobile network operator. In [31][32][33][34], the authors presented an overview of the role of energy harvesting technologies in 5G networks. Energy harvesting is presented as an alternative energy source to extend the life span of devices and networks.…”
Section: Review Of Existing Literaturementioning
confidence: 99%
“…Energy harvesting is presented as an alternative energy source to extend the life span of devices and networks. In [31], Muhammad et al outlined the energy harvesting process and discussed the requirements and benefits of energy harvesting technologies in 5G networks. The harvested energy is categorized and classified based on the following attributes:…”
Section: Review Of Existing Literaturementioning
confidence: 99%
“…and boats [8] and target/object detection [9], to mention a few. Underwater target/object detection processes signals (image, audio, video, acoustic vibrations, radio/optical radiations) and extracts the information content that provides an ultimate insight to the underwater environment.…”
mentioning
confidence: 99%