Abstract
Underwater acoustic sensor networks (UASNs) have recently attracted considerable attention because of the numerous underwater applications. The propagation delay, however, is the most challenging factor for successful communication in UASNs. This article presents a cooperative communication scheme for reliable transmission in UASNs. To cope with packet collision caused due to propagation delay, we propose an adaptive control packet collision avoidance (ACP-CA) scheme to avoid collision of control packets during the communication channel reservation phase (CCRP). Moreover, to reduce a collision between data packets, we propose a relay selection scheme, called the shortest propagation delay-based relay selection (SPD-RS), to select the best relay node (R) for re-transmission in the data transmission phase (DTP). We evaluate the proposed scheme performance in terms of network throughput, average packet success rate, average packet drop rate, and latency. Compared to opportunistic cooperative diversity (OCD) and conventional medium access protocol (CMAP), the proposed scheme performs remarkably well by improving the network throughput and packet success rate, reducing the packet drop rate, and minimizing the latency.
Highlights
Underwater acoustic sensor networks (UASNs) have recently attracted the attention because of the numerous underwater applications such as environmental monitoring, ocean sampling, undersea exploration, assisted navigation, and pollution monitoring [1], [2]
We have one hop cooperative communication that results in two communication links
As no error correction scheme is implemented, the data packet received even with a onebit error is counted as an error, whereas, we assume that the control packets are error-free
Summary
Underwater acoustic sensor networks (UASNs) have recently attracted the attention because of the numerous underwater applications such as environmental monitoring, ocean sampling, undersea exploration, assisted navigation, and pollution monitoring [1], [2]. Gather, and convey data to the surface stations. Both academia and industry have been working towards the error-free transmission of the collected useful informa-. Tion transmitted by the sensor nodes to their corresponding surface station. Automatic repeat request (ARQ) [3] was adapted at the link layer to achieve reliable communication by re-transmitting the erroneous packet. In UASNs, the sink node collects data packets from the surrounding sensor nodes. The sink node transfers the gathered data to a buoy, which transmits the collected data to an onshore sink. The communication between the buoy and the sink node is through high-speed cable [4]
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