Abstract
Underwater Acoustic Sensor Networks (UASNs) offer their practicable applications in seismic monitoring, sea mine detection, and disaster prevention. In these networks, fundamental difference between operational methodologies of routing schemes arises due to the requirement of time-critical applications; therefore, there is a need for the design of delay-sensitive techniques. In this paper, Delay-Sensitive Depth-Based Routing (DSDBR), Delay-Sensitive Energy Efficient Depth-Based Routing (DSEEDBR), and Delay-Sensitive Adaptive Mobility of Courier nodes in Threshold-optimized Depth-based routing (DSAMCTD) protocols are proposed to empower the depth-based routing schemes. The performance of the proposed schemes is validated in UASNs. All of the three schemes formulate delay-efficient Priority Factors (PF) and Delay-Sensitive Holding time ([Formula: see text]) to minimize end-to-end delay with a small decrease in network throughput. These schemes also employ an optimal weight function ([Formula: see text]) for the computation of transmission loss and speed of received signal. Furthermore, solution for delay lies in efficient data forwarding, minimal relative transmissions in low-depth region, and better forwarder selection. Simulations are performed to assess the proposed protocols and the results indicate that the three schemes largely minimize end-to-end delay along with improving the transmission loss of network.
Highlights
From the very beginning, oceans are essential way of transportation, military actions, and distributed tactical surveillance
We compare Depth-Based Routing (DBR) and Delay-Sensitive Depth-Based Routing (DSDBR) to analyze the functioning of our proposed scheme in terms of different performance parameters
DSDBR faces tradeoff between decreased end-to-end delay (Figure 12) and increased total energy consumption; it allows a small decrease in network throughput (Figure 11)
Summary
Oceans are essential way of transportation, military actions, and distributed tactical surveillance. For all these applications, Underwater Acoustic Sensor Networks (UASNs) employ sensor nodes to detect physical attributes such as temperature and pressure. There are vast applications of UASNs such as assisted navigation, ocean sampling, mine reconnaissance, and pollution monitoring, which demand time-critical and delay-sensitive routing protocols. These applications surpass the requirements of energy-efficient and delay-tolerant routing designs. Localization-free routing protocols do not require location information of International Journal of Distributed Sensor Networks sensor nodes for data forwarding; localizationbased protocols route data towards the BS on the basis of location information of the sensor nodes
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