This paper demonstrates the modeling of seawater acoustic channel to obtain the optimum carrier frequency for autonomous underwater vehicle (AUV) wireless communication system. The wireless communication distance of an AUV with its control vessel changes due to the mission at different depths. Current AUV is designed with an operating depth of 0 to 2000m. Therefore, the existing model had limitation when the operational depth varies based on the mission assignment. This is because the optimum frequency to noise ratio changes with respect to the distance of the transmission. To overcome the existing modeling method, this paper presents a ameliorate method to determine the optimum carrier frequency for the AUV wireless communication sys...
Underwater wireless sensor networks are crucial in understanding certain phenomena that take place w...
Mobile swarms of autonomous underwater vehicles (AUV) have exciting potential for extending current ...
Water occupies three fourth of earth\u27s surface. The remaining one fourth is land. Although human ...
International audienceIn this study, transducer system for wireless underwater communication is pres...
In past few decades, researchers have delivered about great advances in the underwater wireless comm...
International audienceAutonomous Underwater Vehicles (AUVs) are becoming increasingly popular for la...
International audienceThe capability of performing a reliable communication is an essential asset to...
Current underwater acoustic communication systems operate in the frequency band of 1 - 10 kHz and ut...
Now a days, underwater wireless communication is getting lot of popularity. Few years before it was ...
Acoustic underwater link due to low attenuation is employed for underwater sensor network (UWSN). Du...
In this study an underwater acoustic communications system has been simulated. The simulations has b...
Abstract. A methodology to predict underwater acoustic channel communica-tion properties (capacity, ...
Path loss of an underwater acoustic communication channel de-pends not only on the transmission dist...
During the past years, there has been an increasing interest in the exploration of underwater wirele...
In this paper, we propose the method to standardize acoustic frequencies for underwater wireless aco...
Underwater wireless sensor networks are crucial in understanding certain phenomena that take place w...
Mobile swarms of autonomous underwater vehicles (AUV) have exciting potential for extending current ...
Water occupies three fourth of earth\u27s surface. The remaining one fourth is land. Although human ...
International audienceIn this study, transducer system for wireless underwater communication is pres...
In past few decades, researchers have delivered about great advances in the underwater wireless comm...
International audienceAutonomous Underwater Vehicles (AUVs) are becoming increasingly popular for la...
International audienceThe capability of performing a reliable communication is an essential asset to...
Current underwater acoustic communication systems operate in the frequency band of 1 - 10 kHz and ut...
Now a days, underwater wireless communication is getting lot of popularity. Few years before it was ...
Acoustic underwater link due to low attenuation is employed for underwater sensor network (UWSN). Du...
In this study an underwater acoustic communications system has been simulated. The simulations has b...
Abstract. A methodology to predict underwater acoustic channel communica-tion properties (capacity, ...
Path loss of an underwater acoustic communication channel de-pends not only on the transmission dist...
During the past years, there has been an increasing interest in the exploration of underwater wirele...
In this paper, we propose the method to standardize acoustic frequencies for underwater wireless aco...
Underwater wireless sensor networks are crucial in understanding certain phenomena that take place w...
Mobile swarms of autonomous underwater vehicles (AUV) have exciting potential for extending current ...
Water occupies three fourth of earth\u27s surface. The remaining one fourth is land. Although human ...
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