Résilience des réseaux de surveillance et de communication acoustique sous-marine

par Jamil Ahmadkassem

Projet de thèse en Réseaux, information et communications

Sous la direction de Joaquin Garcia-Alfaro et de Abdel mehsen Ahmad.

Thèses en préparation à Paris Saclay , dans le cadre de École doctorale Sciences et technologies de l'information et de la communication (Orsay, Essonne ; 2015-....) , en partenariat avec Télécom SudParis (France) (laboratoire) et de Institut national des télécommunications (Evry) (établissement de préparation de la thèse) depuis le 31-01-2019 .


  • Résumé

    The main context of this thesis proposal is supporting and providing novel contributions and tools for surveillance underwater acoustic networks (SUANs). Such networks can be seen as infrastructure security wireless systems, built upon underwater nodes that cooperatively conduct identification and detection tasks. Their mission is the raise alarms when physical intruders, such as seagoing vessels, are seen. Likewise, they must cooperate and rely information in order to track the movements of the intruders, once identified and detected. The underlying technology assumed for both detection and cooperation tasks is based on acoustic identification and acoustic communications.

  • Titre traduit

    Resilient Communications in Surveillance Underwater Acoustic Networks (SUANs)


  • Résumé

    The main context of this thesis proposal is supporting and providing novel contributions and tools for surveillance underwater acoustic networks (SUANs). Such networks can be seen as infrastructure security wireless systems, built upon underwater nodes that cooperatively conduct identification and detection tasks. Their mission is raising alarms when physical intruders, such as seagoing vessels, are seen. Likewise, they must cooperate and rely information in order to track the movements of the intruders, once identified and detected. The underlying technology assumed for both detection and cooperation tasks is based on acoustic identification and acoustic communications.