Abstract
Increasing attention has recently been devoted to underwater sensor networks (UWSNs) because of their capabilities in the ocean monitoring and resource discovery. UWSNs are faced with different challenges, the most notable of which is perhaps how to efficiently deliver packets taking into account all of the constraints of the available acoustic communication channel. The opportunistic routing provides a reliable solution with the aid of intermediate nodes’ collaboration to relay a packet toward the destination. In this paper, we propose a new routing protocol, called opportunistic void avoidance routing (OVAR), to address the void problem and also the energy-reliability trade-off in the forwarding set selection. OVAR takes advantage of distributed beaconing, constructs the adjacency graph at each hop and selects a forwarding set that holds the best trade-off between reliability and energy efficiency. The unique features of OVAR in selecting the candidate nodes in the vicinity of each other leads to the resolution of the hidden node problem. OVAR is also able to select the forwarding set in any direction from the sender, which increases its flexibility to bypass any kind of void area with the minimum deviation from the optimal path. The results of our extensive simulation study show that OVAR outperforms other protocols in terms of the packet delivery ratio, energy consumption, end-to-end delay, hop count and traversed distance.
Highlights
Nowadays, resource discovery in the underwater environment has become one of the important goals to reduce dependency on land resources
Packet delivery ratio (PDR): This is defined as the ratio of the number of packets successfully received by the sink node to the number of packets generated by the source
PDR is increased by increasing the number of nodes, because it reduces the size of void areas and their number, In a dense network, more forwarding nodes have this chance to be placed in the routing path, and the PDRs of routing protocols converge to a high value
Summary
Resource discovery in the underwater environment has become one of the important goals to reduce dependency on land resources. It is a difficult and costly task to monitor and discover the underwater environment. Underwater sensor networks (UWSNs) have recently attracted much attention due to their significant ability in ocean monitoring and resource discovery. Required data are collected by the underwater sensors and directed towards the sink on the surface.
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