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Ligand-receptor-based wireless biological nanonetworks

Authors:

Konstantinos Kantelis,

Petros Nicopolitidis,

Georgios PapadimitriouAuthors Info & Claims

NANOCOM '22: Proceedings of the 9th ACM International Conference on Nanoscale Computing and Communication

Article No.: 30, Pages 1 - 2

https://doi.org/10.1145/3558583.3558870

Published: 03 October 2022 Publication History

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Abstract

In this work, the Ligand-Receptor model and the way it affects the message exchange process in a biological nanonetwork are under scrutiny. To this aim, a set of efficient simulation schemes for the effects of the number of receptors and the residence time in reception accuracy is presented. The outcome revealed the multifaceted effects of each parameter, rendering different chemotactic release schemes as valuable tools for the enhancement of message delivery between biological nanonodes.

References

[1]

Grammenos T et al. 2022. Two-way chemotaxis-based communication for biological nanonetworks. International Journal of Communication Systems, Early View (2022).

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[2]

Murin Yonathan et al. 2018. Optimal Detection for One-Shot Transmission Over Diffusion-Based Molecular Timing Channels. IEEE Transactions on Molecular, Biological and Multi-Scale Communications 4, 2 (2018), 43--60.

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[3]

Nestoridis Theodoros et al. 2019. Directional transmission in biological nanonetworks via positive Chemotaxis. In Proceedings of the Sixth Annual ACM International Conference on Nanoscale Computing and Communication. ACM, New York, NY, USA, 1--2.

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[4]

Pierobon et al. 2010. A physical end-to-end model for molecular communication in nanonetworks. IEEE Journal on Selected Areas in Communications 28, 4 (2010), 602--611.

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[5]

Pierobon et al. 2011. Noise Analysis in Ligand-Binding Reception for Molecular Communication in Nanonetworks. IEEE Transactions on Signal Processing 59, 9 (2011), 4168--4182.

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Index Terms

Ligand-receptor-based wireless biological nanonetworks
1. Networks
  1. Network protocols

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NANOCOM '22: Proceedings of the 9th ACM International Conference on Nanoscale Computing and Communication

October 2022

177 pages

ISBN:9781450398671

DOI:10.1145/3558583

General Chairs:
Josep Miquel Jornet
Northeastern University
,
Massimiliano Pierobon
University of Nebraska-Lincoln

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SIGARCH: ACM Special Interest Group on Computer Architecture

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Association for Computing Machinery

New York, NY, United States

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Published: 03 October 2022

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NANOCOM '22

NANOCOM '22: The Ninth Annual ACM International Conference on Nanoscale Computing and Communication

October 5 - 7, 2022

Catalunya, Barcelona, Spain

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Overall Acceptance Rate 97 of 135 submissions, 72%

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Recommendations

Two-way chemotaxis-based communication for biological nanonetworks

Directional transmission in biological nanonetworks via positive Chemotaxis

Latent-Conditioned Equivariant Diffusion for Structure-Based De Novo Ligand Generation

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