Add to ORKGInternational audienceBased on a method of inductive inference known as the principle of maximum entropy, a time-varying underwater acoustic channel model is derived. The resulting model is proved to be consistent so that it only relies on the available knowledge of the environment to model. While requiring only a few parameters (e.g. channel average power and Doppler spread), it is shown through fading statistics and bit error rates measurements that accurate channel impulse responses can be obtained for communication applications. The Matlab code of the proposed model is available at http://perso.telecombretagne.eu/fxsocheleau/software
International audienceTo fully exploit sea experiments under controlled and reproducible laboratory ...
International audienceTo fully capitalize sea experiments, a channel model driven by real data is pr...
Achieving accurate channel estimation and adaptive communications with moving transceivers is challe...
International audienceBased on a method of inductive inference known as the principle of maximum ent...
The underwater acoustic channel (UAC) is known to be a difficult communication medium. It generates ...
Influenced by environmental conditions, underwater acoustic communication channels exhibit dynamics ...
International audienceThe properties of the underwater acoustic communication channel at medium rang...
International audienceThis paper presents an underwater acoustic channel simulation methodology that...
Many channel estimation methods are based upon stochastic models. It has been well established that ...
Adaptive operation in underwater acoustic networks relies on channel prediction. This work models an...
Underwater communication and networking have become very essential both for commer-cial and military...
Copyright © 2011 Nicolas F. Josso et al. This is an open access article distributed under the Creati...
Underwater acoustic channel models have been studied in the context of communication and sonar appli...
International audienceIn order to provide a concise time-varying SISO channel model, the principle o...
The underwater acoustic channel is remarkably dependent on the considered scenario and the environme...
International audienceTo fully exploit sea experiments under controlled and reproducible laboratory ...
International audienceTo fully capitalize sea experiments, a channel model driven by real data is pr...
Achieving accurate channel estimation and adaptive communications with moving transceivers is challe...
International audienceBased on a method of inductive inference known as the principle of maximum ent...
The underwater acoustic channel (UAC) is known to be a difficult communication medium. It generates ...
Influenced by environmental conditions, underwater acoustic communication channels exhibit dynamics ...
International audienceThe properties of the underwater acoustic communication channel at medium rang...
International audienceThis paper presents an underwater acoustic channel simulation methodology that...
Many channel estimation methods are based upon stochastic models. It has been well established that ...
Adaptive operation in underwater acoustic networks relies on channel prediction. This work models an...
Underwater communication and networking have become very essential both for commer-cial and military...
Copyright © 2011 Nicolas F. Josso et al. This is an open access article distributed under the Creati...
Underwater acoustic channel models have been studied in the context of communication and sonar appli...
International audienceIn order to provide a concise time-varying SISO channel model, the principle o...
The underwater acoustic channel is remarkably dependent on the considered scenario and the environme...
International audienceTo fully exploit sea experiments under controlled and reproducible laboratory ...
International audienceTo fully capitalize sea experiments, a channel model driven by real data is pr...
Achieving accurate channel estimation and adaptive communications with moving transceivers is challe...