We analyze a propagation delay tolerant ALOHA (PDT-ALOHA) protocol proposed recently for underwater networks [16]. In this scheme, guard-bands are introduced at each slot to reduce collisions between senders with different distances to the receiver. We prove some interesting properties concerning the performance of this protocol and show how it varies with key application and protocol parameters such as maximum propagation delay, traffic load, and the guard-band. Although it turns out that exact expressions for the maximum throughput of PDT-ALOHA can be quite complicated, we propose a useful simple expression which is shown numerically to be a very good approximation. I
Any medium access control (MAC) protocol designed for underwater acoustic networks (UANs) must take ...
Two MAC layer protocols are considered for multi-hop underwater acoustic networks: Pure CSMA, suitab...
Abstract — Although there are many MAC protocols that have been proposed for terrestrial wireless ne...
Recently underwater sensor networks (UWSN) attracted large research interests. Medium access control...
Similar to terrestrial networks, underwater wireless networks (UWNs) also aid several critical tasks...
A propagation-delay-aware MAC protocol, based on carrier sensing multiple access, is proposed. The d...
The underwater acoustic channel features long and variable propagation delay, high bit error rate an...
The ideal tool for making underwater applications viable is an Underwater Acoustic Network (UAN). Un...
Medium Access Control (MAC) layer protocols are responsible for the reliable transition of data by p...
Abstract—Multi-hop underwater acoustic sensor networks constrain the performance of medium access co...
Abstract—Multi-hop underwater acoustic sensor networks constrain the performance of medium access co...
Abstract — In the operation of mobile underwater acoustic networks, protocols designed for tradition...
Underwater networks consist of multiple sensor nodes and autonomous underwater vehicles (AUV’s) that...
The goal of this paper is understand how location-dependent propagation latency affects medium acces...
In this paper we discuss issues related to the design of underwater acoustic network protocols which...
Any medium access control (MAC) protocol designed for underwater acoustic networks (UANs) must take ...
Two MAC layer protocols are considered for multi-hop underwater acoustic networks: Pure CSMA, suitab...
Abstract — Although there are many MAC protocols that have been proposed for terrestrial wireless ne...
Recently underwater sensor networks (UWSN) attracted large research interests. Medium access control...
Similar to terrestrial networks, underwater wireless networks (UWNs) also aid several critical tasks...
A propagation-delay-aware MAC protocol, based on carrier sensing multiple access, is proposed. The d...
The underwater acoustic channel features long and variable propagation delay, high bit error rate an...
The ideal tool for making underwater applications viable is an Underwater Acoustic Network (UAN). Un...
Medium Access Control (MAC) layer protocols are responsible for the reliable transition of data by p...
Abstract—Multi-hop underwater acoustic sensor networks constrain the performance of medium access co...
Abstract—Multi-hop underwater acoustic sensor networks constrain the performance of medium access co...
Abstract — In the operation of mobile underwater acoustic networks, protocols designed for tradition...
Underwater networks consist of multiple sensor nodes and autonomous underwater vehicles (AUV’s) that...
The goal of this paper is understand how location-dependent propagation latency affects medium acces...
In this paper we discuss issues related to the design of underwater acoustic network protocols which...
Any medium access control (MAC) protocol designed for underwater acoustic networks (UANs) must take ...
Two MAC layer protocols are considered for multi-hop underwater acoustic networks: Pure CSMA, suitab...
Abstract — Although there are many MAC protocols that have been proposed for terrestrial wireless ne...