Co-UWSN: Cooperative Energy-Efficient Protocol for Underwater WSNs

Ahmed, Sheeraz; Javaid, Nadeem; Khan, Fakhri Alam; Durrani, Mehr Yahya; Ali, Ahmad; Shaukat, Arslan; Sandhu, Muhammad Moid; Khan, Zahoor Ali; Qasim, Umar

doi:10.1155/2015/891410

Cited by 72 publications

(64 citation statements)

References 31 publications

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“…With the help of these packets, each sensor finds its optimal forwarders within its range of transmission and manages a list of forwarders under some threshold to find the best forwarder for its information forwarding (IF). Every sensor computes its weight function using expression 37 as follows …”

Section: Initialization Phasementioning

confidence: 99%

Wireless-powered cooperative energy aware anycast routing in wireless sensor networks

Hadi

Ahmed

Minhas

et al. 2016

International Journal of Distributed Sensor Networks

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A wireless-powered cooperative energy aware anycast routing protocol is proposed in this work. In contrary to conventional cooperative networks, it is considered here that all the relays did not have embedded energy supply, rather equipped with rechargeable batteries and energy harvesting units. Hence, from source signals, they accumulate sufficient harvested energy before the information is forwarded to its destination. Each relay between two basic modes will switch adaptively, which are information forwarding and energy harvesting. The research is limited to decode-and-forward scheme and fixed ratio combining, which works at the relay node of the network and the receiver end, respectively. The physical layer cooperative diversity and network layer multi-hop routing lead us to devise a minimum energy routing protocol as the joint optimization of power required for transmission at physical layer and also at network layer for the process to select a link. Simulating our algorithm demonstrates that the suggested cooperative energy aware anycast routing scheme has a better end-to-end delay and better ratio of packet delivery. Results further reveal that our proposed algorithm has improved energy consumption in comparison to the non-cooperative energy aware anycast scheme and the cooperation-based robust cooperative routing protocol scheme. Sensed data are allocated between nearby nodes by cooperative energy aware anycast routing in a cost-effective way in order to achieve maximum network lifetime.

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Section: Initialization Phasementioning

confidence: 99%

Wireless-powered cooperative energy aware anycast routing in wireless sensor networks

Hadi

Ahmed

Minhas

et al. 2016

International Journal of Distributed Sensor Networks

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show abstract

“…Simulation results showed that RACE routing scheme achieves improved packet delivery ratio, high stability period, less consumption of energy and low end-to-end delay as compared to AMCTD and ACE. In [3] the authors proposed a reliable, energy-efficient, and high throughput routing protocol Cooperative UWSN (Co-UWSN) for UWSNs to improve the performance of network. Distance and signal-to-noise ratio computation of the channel conditions are utilized by destination and relays nodes as cost functions.…”

Section: Related Workmentioning

confidence: 99%

“…<100 kHz) so all the sensor nodes are equipped with a low bandwidth acoustic modem therefore its propagation latency is five times higher than the radio channel i.e. sensor nodes can propagate upto 1 to 3 m/sec and they are generally considered as static [3]. Underwater nodes utilize more power and replacement of nodes or batteries is very difficult [7].…”

Section: Problem Statementmentioning

confidence: 99%

“…Underwater Wireless Sensor Networks (UWSNs) forms an optimistic innovation for empowering and improving a few key applications in underwater exploration. UWSNs have established many applications as they are used in sea exploration, data collection, pollution monitoring, tactical surveillance, disaster prevention, military applications and mine surveys [3]. Transmission of data from sensor nodes to one of the sinks at sea surface using multi hop is required by underwater applications.…”

Section: Introductionmentioning

confidence: 99%

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Congestion Control Reliability and Adaptive Cooperation for Efficient Underwater Sensor Networks

Inam¹,

Ahmed

Ullah

et al. 2018

ICST Transactions on Scalable Information Systems

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Underwater wireless sensor networks (UWSNs) are intended to be positioned at the areas that need to be supervised constantly deprived of the human interaction. Consequently, these networks are likely to stay active for a longer duration. Though, sensor nodes in UWSNs are equipped with finite energy resources. Furthermore, congestion is one of the biggest challenges in UWSNs because it leads to data packet loss and ultimately shorten network lifetime. In this paper, a congestion control model in UWSNs with congestion control is considered. A routing protocol is purposed which will be a modification of current UWSNs protocols such as RACE and ARCUN by presenting their attributes with congestion control mechanism. We will deliver some comparisons between the proposed scheme and the existing schemes and prove that this new scheme with congestion control has better performance than the existing ones.

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“…Here a cost function has mentioned to select the very best route to sink calculated on the basis of their residential energy and their distance from the sink. Co-UWSN reduces effects of path loss and enhanced stability of the network [19].…”

Section: A Co-uwsnmentioning

confidence: 99%

A Recent Study on Routing Protocols in UWSNs

Ahsan¹,

Ahmed²,

Khan³

et al. 2017

ijacsa

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Abstract-Recent research has seen remarkable advancement in the field of Under Water Sensor Networks (UWSNs). Many different protocols are developed in the recent years in this domain. As these protocols can be categorized in a variety of ways according to the mechanisms and functionalities they follow, hence it becomes important to understand their principal working. In this research we have introduced three analysis methods; Clustering based, Localization based and Cooperation based routing by selecting some recent routing protocols in the field of UWSN and presented a comparative analysis according to the categories in which they lie. This research has been taken theoretically and is qualitative one. Also a detail analysis of their key advantages and flaws are also identified in this research.

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Co-UWSN: Cooperative Energy-Efficient Protocol for Underwater WSNs

Cited by 72 publications

References 31 publications

Wireless-powered cooperative energy aware anycast routing in wireless sensor networks

Wireless-powered cooperative energy aware anycast routing in wireless sensor networks

Congestion Control Reliability and Adaptive Cooperation for Efficient Underwater Sensor Networks

A Recent Study on Routing Protocols in UWSNs

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