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23-05-2024 | Research Paper

Analysis of Signal Distortion in Molecular Communication Channels Using Frequency Response

Authors: Shoichiro Kitada, Taishi Kotsuka, Yutaka Hori

Published in: New Generation Computing | Issue 2/2024

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Abstract

Molecular communication (MC) is a concept in communication engineering, where diffusive molecules are used to transmit information between nano or micro-scale chemical reaction systems. Engineering MC to control the reaction systems in cells is expected for many applications such as targeted drug delivery and biocomputing. Toward control of the reaction systems as desired via MC, it is important to transmit signals without distortion by MC since the reaction systems are often triggered depending on the concentration of signaling molecules arriving at the cells. In this paper, we propose a method to analyze signal distortion caused by diffusion-based MC channels using frequency response of channels. The proposed method provides indices that quantitatively evaluate the magnitude of distortion and shows parameter conditions of MC channels that suppress signal distortion. Using the proposed method, we demonstrate the design procedure of specific MC channels that satisfy given specifications. Finally, the roles of MC channels in nature are discussed from the perspective of signal distortion.

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Title: Analysis of Signal Distortion in Molecular Communication Channels Using Frequency Response
Authors: Shoichiro Kitada
Taishi Kotsuka
Yutaka Hori
Publication date: 23-05-2024
Publisher: Springer Japan
Published in: New Generation Computing / Issue 2/2024
Print ISSN: 0288-3635
Electronic ISSN: 1882-7055
DOI: https://doi.org/10.1007/s00354-024-00258-1

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Analysis of Signal Distortion in Molecular Communication Channels Using Frequency Response

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Other articles of this Issue 2/2024

A Cellular Automaton Approach for Efficient Computing on Surface Chemical Reaction Networks

On-Line Reoptimization of Mammalian Fed-Batch Culture Using a Nonlinear Model Predictive Controller

Characterization of Cascaded DNA Generation Reaction for Amplifying DNA Signal

Preface: Special Issue on Molecular Cybernetics: Theory and Practice Toward Chemical AI

Correlation Between In Vitro and In Vivo Gene-Expression Strengths is Dependent on Bottleneck Process

Networks of Classical Conditioning Gates and Their Learning

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Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Wirtschaft"

Springer Professional "Technik"

A Cellular Automaton Approach for Efficient Computing on Surface Chemical Reaction Networks

On-Line Reoptimization of Mammalian Fed-Batch Culture Using a Nonlinear Model Predictive Controller

Characterization of Cascaded DNA Generation Reaction for Amplifying DNA Signal

Preface: Special Issue on Molecular Cybernetics: Theory and Practice Toward Chemical AI

Correlation Between In Vitro and In Vivo Gene-Expression Strengths is Dependent on Bottleneck Process

Networks of Classical Conditioning Gates and Their Learning