Effect of realistic sea surface movements in achieving full‐view coverage camera sensor network

Manoufali, Mohamed; Kong, Peng‐Yong; Jimaa, Shihab

doi:10.1002/dac.3077

Cited by 3 publications

(2 citation statements)

References 29 publications

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“…The full-view coverage was extended from 2-D plane to the 3-D surface by Manoufali et al [ 38 ], whose algorithm has high complexity for the reason that they take the effect of realistic sea surface movement into consideration. Besides, they proposed a method to improve the target detection and recognition in the presence of poor link quality using cooperative transmission with low power consumption.…”

Section: Related Workmentioning

confidence: 99%

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Node Scheduling Strategies for Achieving Full-View Area Coverage in Camera Sensor Networks

Xiao

Sha

et al. 2017

Sensors

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Unlike conventional scalar sensors, camera sensors at different positions can capture a variety of views of an object. Based on this intrinsic property, a novel model called full-view coverage was proposed. We study the problem that how to select the minimum number of sensors to guarantee the full-view coverage for the given region of interest (ROI). To tackle this issue, we derive the constraint condition of the sensor positions for full-view neighborhood coverage with the minimum number of nodes around the point. Next, we prove that the full-view area coverage can be approximately guaranteed, as long as the regular hexagons decided by the virtual grid are seamlessly stitched. Then we present two solutions for camera sensor networks in two different deployment strategies. By computing the theoretically optimal length of the virtual grids, we put forward the deployment pattern algorithm (DPA) in the deterministic implementation. To reduce the redundancy in random deployment, we come up with a local neighboring-optimal selection algorithm (LNSA) for achieving the full-view coverage. Finally, extensive simulation results show the feasibility of our proposed solutions.

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Section: Related Workmentioning

confidence: 99%

“…As mentioned in the Introduction, the sector sensing model has been adopted in many studies [ 13 , 15 , 18 , 19 , 24 , 26 , 36 , 37 , 38 ]. In this paper, we also adopt the sector sensing model and explain this model in the following content.…”

Section: Problem Description and Assumptionsmentioning

confidence: 99%

Node Scheduling Strategies for Achieving Full-View Area Coverage in Camera Sensor Networks

Xiao

Sha

et al. 2017

Sensors

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A hybrid coverage control for enhancing UWSN localizability using IBSO-VFA

et al. 2021

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Wireless Mesh Communication Technologies and Protocols for a Full-View Camera Sensor Network Used in Maritime Surveillance

Manoufali

Kong

Jimaa

et al. 2018

Advances in Human Resources Management and Organizational Development

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Maritime oil exploration and transportation has increased more steeply due to the expansion of the world crude oil and natural gas production. The probability of oilrig pollution, burning, and explosion continues to rise. All these factors stimulate a greater danger for vessels, oil operation safety, and maritime environment. The continuous surveillance of the offshore oil fields and container vessels is essential to secure the production flow, avoid trespassing, and prevent vandalism from intruders and pirates. However, developing a large-scale camera sensor network (CSN) for a maritime surveillance is a challenging problem due to the environment complexity and network connectivity. Maritime wireless mesh networks (MWMNs) are envisaged to provide network connectivity in maritime environment and enable users to access the terrestrial communication networks. The high cost and low data-rate of satellite and other legacy maritime communication technologies and systems deployed in MWMNs pose a major limitation to establishing reliable and affordable maritime communications.

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Effect of realistic sea surface movements in achieving full‐view coverage camera sensor network

Cited by 3 publications

References 29 publications

Node Scheduling Strategies for Achieving Full-View Area Coverage in Camera Sensor Networks

Node Scheduling Strategies for Achieving Full-View Area Coverage in Camera Sensor Networks

A hybrid coverage control for enhancing UWSN localizability using IBSO-VFA

Wireless Mesh Communication Technologies and Protocols for a Full-View Camera Sensor Network Used in Maritime Surveillance

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