Nanorouter Awareness in Flow-Guided Nanocommunication Networks
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AutorAsorey Cacheda, Rafael; Lemic, Filip; García Sánchez, Antonio Javier; Abadal, Sergi; Famaey, Jeroen; [et al.]
Grupo de investigaciónGrupo de Ingeniería Telemática
Área de conocimientoIngeniería Telemática
PatrocinadoresThis work was supported by project “AriSe2: Future IoT Networks and Nano-networks (FINe)”, ref. PID2020-116329GB-C22 (AEI/FEDER, UE). This work was supported in part by the Fundacion´ Seneca, Regi ´ on de Murcia, through the ATENTO Project, under ´ Grant 20889/PI/18, and in part by the LIFE project (Fondo SUPERA Covid-19 funded by the Agencia Estatal Consejo Superior de Investigaciones Cient´ıficas CSIC, Universidades Espanolas, and ˜ Banco Santander). The author Filip Lemic was supported by the EU Marie Curie Actions Individual Fellowship project entitiled “Scalable Localization-enabled In-body Terahertz Nanonetwork” (ScaLeITN), grant nr. 893760.
Realizado en/conUniversidad Politécnica de Cartagena; Universidad Politécnica de Cataluña; Universidad de Amberes
Fecha de publicación2021-10-11
Cita bibliográficaR. Asorey-Cacheda, F. Lemic, A.-J. García-Sánchez, S. Abadal, J. Famaey, J. García-Haro, "Nanorouter Awareness in Flow-Guided Nanocommunication Networks," in Proceedings of the WiMob'21 Workshops, Virtual, October 2021.
Flow-guided electromagnetic nanonetworks will enable innovative medical applications for monitoring, information gathering, and data transmission inside the human body. These nanonetworks will have to operate under extreme computational and powering-related constraints, and in very hostile environments inside human vascular systems. Under these circumstances, successful transmissions between in-body nanonodes and an on-body nanorouter rarely occur, thus requiring new approaches to improve the network throughput in this scenario. Along this view, in classical flow-guided nanonetworks the nanonodes are envisioned to transmit packets if they have enough energy for the transmission, regardless of their vicinity to the nanorouter. In this paper, we propose a nanorouter awareness model that can provide significant throughput gains compared to the baseline based on blind transmissions, facilitating the roll-out of nanocommunication-supported medical applications.