Abstract

Underwater Acoustic Sensor Network (UASN) comes with intrinsic constraints because it is deployed in the aquatic environment and uses the acoustic signals to communicate. The examples of those constraints are long propagation delay, very limited bandwidth, high energy cost for transmission, very high signal attenuation, costly deployment and battery replacement, and so forth. Therefore, the routing schemes for UASN must take into account those characteristics to achieve energy fairness, avoid energy holes, and improve the network lifetime. The depth based forwarding schemes in literature use node’s depth information to forward data towards the sink. They minimize the data packet duplication by employing the holding time strategy. However, to avoid void holes in the network, they use two hop node proximity information. In this paper, we propose the Energy and Depth variance-based Opportunistic Void avoidance (EDOVE) scheme to gain energy balancing and void avoidance in the network. EDOVE considers not only the depth parameter, but also the normalized residual energy of the one-hop nodes and the normalized depth variance of the second hop neighbors. Hence, it avoids the void regions as well as balances the network energy and increases the network lifetime. The simulation results show that the EDOVE gains more than 15% packet delivery ratio, propagates 50% less copies of data packet, consumes less energy, and has more lifetime than the state of the art forwarding schemes.

Highlights

  • Underwater acoustic sensor networks (UASNs) have gained a lot of attention from the research and industrial community due to their vast application areas

  • In the context of this paper, we focus on the depth based routing schemes

  • If there is already a void region in the network, the routing scheme must divert the communication around the void area. By keeping all those features under consideration, we have proposed an Energy and Depth variance-based Opportunistic Void avoidance (EDOVE) scheme in this paper

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Summary

Introduction

Underwater acoustic sensor networks (UASNs) have gained a lot of attention from the research and industrial community due to their vast application areas. The main objective of these routing protocols is to directionally forward the data packet towards the sink(s) to minimize the propagation delay, reduce energy consumption and utilize minimum bandwidth by restricting the broadcast of multiple copies of the data packet Another category of routing protocols consists of the routing schemes that do not use any location information but the depth of the node [15,16,17,18,19,20]. The propagation delay in the depth based routing scheme can be minimized if the node with lesser depth forwards the data packet because that node is closer to Sink.

Previous Works
Motivation and Contributions
Proposed EDOVE Scheme
Problem Statement
Preliminary Notations
Estimation of Thi
Simulation Analysis
Broadcasted Copies of Data Packet
Packet Delivery Ratio-PDR
Energy Consumption and Energy Tax
Number of Dead Nodes
Average Operational Time
Findings
Conclusions

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