Abstract
Underwater sensor networks with acoustic communications are significantly challenged due to several unique characteristics, such as energy consumption, high propagation delay, and severely limited distance-dependent bandwidth. These unique characteristics make it difficult to directly adopt schemes for underwater acoustic sensor networks that are already proven for reliable terrestrial wireless sensor networks. In particular, propagation delay is one of the key elements for delay-sensitive underwater applications. In this article, we propose an adaptive network allocation vector timer–based underwater carrier sense multiple access with collision avoidance medium access control protocol with propagation delay estimation to maximize network throughput while reducing the end-to-end delay in transmission for delay-sensitive applications. In the proposed scheme, we first calculate the distance between the sensor nodes using received signal strength and the Lambert W function and then estimate the propagation delay. Consequently, the neighbor node can set an adaptive network allocation vector timer based on the estimated propagation delay. Our extensive simulation results reveal that the proposed scheme outperforms the distance-aware collision avoidance protocol, the propagation-delay-tolerant collision avoidance protocol, and the maximum propagation delay-based medium access control protocol in terms of network throughput and end-to-end delay. The simulation results also show that the proposed scheme has near-optimal performance compared to the knowledge-based medium access control scheme, which utilizes the location information of each sensor node.
Highlights
Underwater acoustic sensor networks (UW-ASNs) have been proposed to support applications for oceanographic data collection, ocean sampling, monitoring pollution and environments, offshore exploration; to prevent disasters; to assist navigation; and for distributed tactical surveillance.[1]
We analyze the conventional carrier sense multiple access with collision avoidance (CSMA/CA) medium access control (MAC) protocol for UW-ASNs in section ‘‘Conventional CSMA/CA MAC for UW-ASNs’’ and analyze the proposed adaptive network allocation vector (NAV) timer–based UW-CSMA/CA MAC protocol using the IEEE 802.11 distributed coordination function (DCF) in section ‘‘The proposed adaptive NAV timer construction.’’ Simulation results of the proposed scheme are evaluated in section ‘‘Simulation results.’’ our conclusion and future works are drawn in section ‘‘Conclusion.’’
Without any time synchronization, we mainly focus on estimating the propagation delay by extracting the distance between sensor nodes from the received signal strength (RSS) of the receiver and design an adaptive NAV timer with the estimated propagation delay to protect the neighbor’s communications
Summary
Underwater acoustic sensor networks (UW-ASNs) have been proposed to support applications for oceanographic data collection, ocean sampling, monitoring pollution and environments, offshore exploration; to prevent disasters; to assist navigation; and for distributed tactical surveillance.[1]. To alleviate collisions caused by propagation delay in transmission, researchers proposed an underwater carrier sense multiple access with collision avoidance (UW-CSMA/CA) MAC protocol.[9,10,11] Under the UW-CSMA/CA MAC protocol, the primary challenge is to optimize the network allocation vector (NAV) timer by estimating the propagation delay between the sensor nodes. We propose an adaptive NAV timer– based CSMA/CA MAC protocol for UW-ASNs. In the proposed scheme, we first calculate the distance between the sensor nodes from the received signal strength (RSS) of the receiver and the Lambert W function, and we design an adaptive NAV timer for the neighbor nodes using the estimated propagation delay to select the best sleep time to protect the neighbors’ communications. We analyze the conventional CSMA/CA MAC protocol for UW-ASNs in section ‘‘Conventional CSMA/CA MAC for UW-ASNs’’ and analyze the proposed adaptive NAV timer–based UW-CSMA/CA MAC protocol using the IEEE 802.11 distributed coordination function (DCF) in section ‘‘The proposed adaptive NAV timer construction.’’ Simulation results of the proposed scheme are evaluated in section ‘‘Simulation results.’’ our conclusion and future works are drawn in section ‘‘Conclusion.’’
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