Modeling and Analysis of Interference for Diffusion-based Nanoscale Networks with Spatially Distributed Transmitters (Invited Paper)

Trang C. Mai; Tiep M. Hoang; Hoang D. Tuan; Marco Di Renzo; Trung Q. Duong

doi:10.1109/vtcspring.2017.8108374

Conference papers

Modeling and Analysis of Interference for Diffusion-based Nanoscale Networks with Spatially Distributed Transmitters (Invited Paper)

Trang C. Mai ¹ Tiep M. Hoang ¹ Hoang D. Tuan ² Marco Di Renzo ³ Trung Q. Duong ¹

1 QUB - Queen's University [Belfast]

2 UTS - University of Technology Sydney

3 L2S - Laboratoire des signaux et systèmes

Abstract : We consider a diffusion-based nano-network with N spatially distributed transmitters and one receiver. While the transmitters are linked in a unified entity to perform one transmission, the receiver is large enough to be viewed as a plane. Messages are encoded into the number of nano-scale molecules. Based on these assumptions, we analyze the signal-to-interference ratio, which is based on the average numbers of absorbed molecules. Moreover, we present an approach to interference alignment for molecular communications.

Keywords : molecular communications concentration First passage time

Document type :

Conference papers

Domain :

Engineering Sciences [physics] / Automatic

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https://hal-centralesupelec.archives-ouvertes.fr/hal-02395135
Contributor : Delphine Le Piolet <>
Submitted on : Thursday, December 5, 2019 - 11:38:48 AM
Last modification on : Wednesday, September 16, 2020 - 4:48:48 PM

Modeling and Analysis of Interference for Diffusion-based Nanoscale Networks with Spatially Distributed Transmitters (Invited Paper)

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Modeling and Analysis of Interference for Diffusion-based Nanoscale Networks with Spatially Distributed Transmitters (Invited Paper)

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