Distance estimation in concentration-based molecular communications

Jiun Ting Huang; Hsin Yu Lai; Yen Chi Lee; Chia Han Lee; Ping Cheng Yeh

doi:10.1109/GLOCOM.2013.6831464

Distance estimation in concentration-based molecular communications

Jiun Ting Huang, Hsin Yu Lai, Yen Chi Lee, Chia Han Lee, Ping Cheng Yeh

Department of Mathematics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

48 Scopus citations

Abstract

The advance in nanotechnology has enabled the fabrication of nanomachines for health applications. Recently, molecular communication has become a promising communication paradigm that allows nanomachines to exchange information by using messenger molecules in fluid environments. To enable molecular communications, the knowledge of distance between nanomachines is critical since the distance affects both the performance and the efficiency of molecular communication. However, works on molecular communication either assume the distance is known or the distance estimation is based on the assumption of clock synchronization between nanomachines. In this paper, we propose novel methods for distance estimation using only one-way transmission and requiring no clock synchronization between nanomachines. The noise of diffusion channel due to random walk of molecules is investigated and methods to effectively improve the estimation accuracy are proposed.

Original language	English
Title of host publication	2013 IEEE Global Communications Conference, GLOBECOM 2013
Pages	2587-2591
Number of pages	5
DOIs	https://doi.org/10.1109/GLOCOM.2013.6831464
State	Published - 2013
Event	2013 IEEE Global Communications Conference, GLOBECOM 2013 - Atlanta, GA, United States Duration: 9 Dec 2013 → 13 Dec 2013

Publication series

Name	Proceedings - IEEE Global Communications Conference, GLOBECOM
ISSN (Print)	2334-0983
ISSN (Electronic)	2576-6813

Conference

Conference	2013 IEEE Global Communications Conference, GLOBECOM 2013
Country/Territory	United States
City	Atlanta, GA
Period	9/12/13 → 13/12/13

Keywords

Brownian motion
diffusion
distance estimation
Molecular communications
nanomachine

Access to Document

10.1109/GLOCOM.2013.6831464

Cite this

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title = "Distance estimation in concentration-based molecular communications",

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Huang, JT, Lai, HY, Lee, YC, Lee, CH & Yeh, PC 2013, Distance estimation in concentration-based molecular communications. in 2013 IEEE Global Communications Conference, GLOBECOM 2013., 6831464, Proceedings - IEEE Global Communications Conference, GLOBECOM, pp. 2587-2591, 2013 IEEE Global Communications Conference, GLOBECOM 2013, Atlanta, GA, United States, 9/12/13. https://doi.org/10.1109/GLOCOM.2013.6831464

Distance estimation in concentration-based molecular communications. / Huang, Jiun Ting; Lai, Hsin Yu; Lee, Yen Chi et al.
2013 IEEE Global Communications Conference, GLOBECOM 2013. 2013. p. 2587-2591 6831464 (Proceedings - IEEE Global Communications Conference, GLOBECOM).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Lai, Hsin Yu

AU - Lee, Yen Chi

AU - Lee, Chia Han

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AB - The advance in nanotechnology has enabled the fabrication of nanomachines for health applications. Recently, molecular communication has become a promising communication paradigm that allows nanomachines to exchange information by using messenger molecules in fluid environments. To enable molecular communications, the knowledge of distance between nanomachines is critical since the distance affects both the performance and the efficiency of molecular communication. However, works on molecular communication either assume the distance is known or the distance estimation is based on the assumption of clock synchronization between nanomachines. In this paper, we propose novel methods for distance estimation using only one-way transmission and requiring no clock synchronization between nanomachines. The noise of diffusion channel due to random walk of molecules is investigated and methods to effectively improve the estimation accuracy are proposed.

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Distance estimation in concentration-based molecular communications

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