Abstract
The Underwater Acoustic Sensor Network (UASN) plays a significant role in many application areas like surveillance, security, commercial and industrial applications. In UASN routing, propagation delay and collision are perennial problems due to data transfers from various sensor nodes to the Sink Node (SN) at the same time. In this paper, we propose a Collision Aware Priority Level mechanism based on Medium Access Control protocol (CAPL-MAC) for transferring data from the Sensor Head (SH) to the SN. In the proposed protocol, we use Parallel Competition Scheme (PCS) for high channel utilization and energy saving of battery. In each Competition Cycle (CC), the data packet produced by each SH in a different time slot can joinin CC for data packet transmission in parallel with high channel utilization. In CAPL-MAC, each SH is assigned with a different Priority Level Number (PLN) during every CC. Instead of broadcasting, each SH sends its respective PLN to each SH with the help of the nearest SH to save battery energy. Based on the highest PLN, each SH communicates with SN without collision, and it will also reduce propagation delay as well as improve timing efficiency. Finally, Quality of Service is also improved. We adopt the single-layer approach with the handshaking protocol for communication. We carried out the simulation utilizing Aqua-Sim Network Simulator 2. The simulation results showed that the proposed CAPL-MAC protocol achieved the earlier stated performance rather than by existing protocols suchas Competitive Transmission-MAC and Channel Aware Aloha.
Highlights
Underwater Acoustic Sensor Networks (UASNs) play essential roles in collecting data in underwater environments for a plethora of applications, such as water quality monitoring, military operations, underwater exploration monitoring and habitat monitoring
We compared two existing protocols, namely, the CT-Medium Access Control (MAC) and CAA, and the results proved that our proposed CAPL-MAC gave 45 to 65 percent improvement in terms of energy efficiency, throughput and delay reduction
Graphs that mapped the results of CAPL-MAC, CT-MAC, and CAA are generated
Summary
Underwater Acoustic Sensor Networks (UASNs) play essential roles in collecting data in underwater environments for a plethora of applications, such as water quality monitoring, military operations, underwater exploration monitoring and habitat monitoring. The primary objective of this study is to avoid collisions in an acoustic sensor network using the Collision Aware Priority Level-Medium Access Control (CAPL-MAC) protocol. The aim of the study is to improve Medium Access Control (MAC) protocol using our proposed protocol. In a UASN, all types of sensor nodes are used for collecting data and sending them to the surface station. When the data packet is sent to the surface station or sink node, there will be possible collisions in the network due to multiple sensor nodes communicating with the sink node (Luo, Pu, Peng, Zhou, & Cui, 2015). Many existing MAC protocols that were proposed in the past were based on contention-based protocols (CBPs) and contention -free protocols (CFPs)
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