Enabling Energy Efficient Molecular Communication via Molecule Energy Transfer

Enabling Energy Efficient Molecular Communication via Molecule Energy Transfer

Molecular communication via diffusion (MCvD) is inherently an energy efficient transportation paradigm, which requires no external energy during molecule propagation. Inspired by the fact that the emitted molecules have a finite probability to reach the receiver, this letter introduces an energy eff...

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Bibliographic Details
Published in:IEEE communications letters Vol. 21; no. 2; pp. 254 - 257
Main Authors: Yansha Deng, Weisi Guo, Noel, Adam, Nallanathan, Arumugam, Elkashlan, Maged
Format: Journal Article
Language:English
Published: New York IEEE 01-02-2017
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Artificial neural networks
chemical reaction
Chemical reactions
Chemical synthesis
Chemicals
Codes
Communication
Communications systems
Energy
Energy exchange
Energy transfer
Error probability
Molecular communication
Relay systems
Relays
SMIET relay
Transmitters
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Summary:Molecular communication via diffusion (MCvD) is inherently an energy efficient transportation paradigm, which requires no external energy during molecule propagation. Inspired by the fact that the emitted molecules have a finite probability to reach the receiver, this letter introduces an energy efficient scheme for the information molecule synthesis process of MCvD via a simultaneous molecular information and energy transfer (SMIET) relay. With this SMIET capability, the relay can decode the received information as well as generate its emission molecules using its absorbed molecules via chemical reactions. To reveal the advantages of SMIET, approximate closed-form expressions for the bit error probability and the synthesis cost of this two-hop molecular communication system are derived and then validated by particle-based simulation. Interestingly, by comparing with a conventional relay system, the SMIET relay system can be shown to achieve a lower minimum bit error probability via molecule division, and a lower synthesis cost via molecule type conversion or molecule division.
ISSN:1089-7798
1558-2558
DOI:10.1109/LCOMM.2016.2624727