Spatial Receptor Allocation for a Multiple Access Hub in Nanonetworks | Zendy

Fazilet Gokbudak | Zendy; Bayram Cevdet Akdeniz | Zendy; Tuna Tuğcu | Zendy; Alí Emre Pusane | Zendy

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Spatial Receptor Allocation for a Multiple Access Hub in Nanonetworks

Author(s) -

Fazilet Gokbudak,

Bayram Cevdet Akdeniz,

Tuna Tuğcu,

Alí Emre Pusane

Publication year - 2019

Publication title -

ieee transactions on molecular biological and multi-scale communications

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.491

H-Index - 21

eISSN - 2372-2061

pISSN - 2332-7804

DOI - 10.1109/tmbmc.2019.2946819

Subject(s) - computer science , intersymbol interference , network topology , interference (communication) , molecular communication , computer network , scheme (mathematics) , monte carlo method , distributed computing , topology (electrical circuits) , engineering , transmitter , channel (broadcasting) , electrical engineering , mathematics , mathematical analysis , statistics

Following the same trends in other communication schemes, design of star network topologies will gain importance in order to communicate with a centralized hub in molecular communications as well. For a molecular communication multiple access network system, interlink interference (ILI) becomes a crucial issue in addition to intersymbol interference (ISI). This letter focuses on spatial allocation of the receptors of a centralized receiver among transmitters by proposing efficient solutions to reduce both ISI and ILI. The spatial allocation scheme has been designed using an optimization problem and verified with Monte Carlo simulations.

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