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Molecular communication

In today's article, we will explore the fascinating world of Molecular communication. From its origins to its impact on modern society, we will delve into its history, evolution and relevance in today's world. Molecular communication is a topic that has aroused interest and curiosity over time, and throughout this article, we will try to shed light on its most significant aspects. With expert interviews, in-depth analysis and practical examples, we aim to offer a comprehensive and insightful view of Molecular communication, so that our readers can expand their knowledge and better understand its importance in different contexts. Get ready to enter a world of discoveries and reflections on Molecular communication!

Molecular communications systems use the presence or absence of a selected type of molecule to digitally encode messages. The molecules are delivered into communications media such as air and water for transmission. The technique also is not subject to the requirement of using antennas that are sized to a specific ratio of the wavelength of the signal. Molecular communication signals can be made biocompatible and require very little energy.

Nature

Molecular signaling is used by plants and animals, such as the pheromones that insects use for long-range signaling.

Alcohol

In 2016 researchers demonstrated the use of evaporated alcohol molecules to carry messages across several meters of open space and successfully decoded the message on the other side. The presence of molecules encoded to digital 1 and their absence encoded to 0. The hardware cost around 100 US dollars.

Chemical systems

A Russian patent for a wireless network that uses a chemical system as the physical medium for data transmission, instead of the environment, was granted in 2018. The signals representing electronic messages transmitted through the wireless communication channel of this hypothetical wireless computer network would be changes of the chemical system's chemical composition.

References

  1. ^ T. Nakano, A. Eckford, and T. Haraguchi (2013). Molecular Communication. Cambridge University Press. ISBN 978-1107023086.{{cite book}}: CS1 maint: multiple names: authors list (link)
  2. ^ a b c "Text message using vodka: Molecular communication can aid communication underground, underwater or Inside the Body". Phys.org. Retrieved 18 October 2016.
  3. ^ Farsad, N.; Guo, W.; Eckford, A. W. (2013). Willson, Richard C (ed.). "Tabletop Molecular Communication: Text Messages through Chemical Signals". PLOS ONE. 8 (12): e82935. arXiv:1310.0070. Bibcode:2013PLoSO...882935F. doi:10.1371/journal.pone.0082935. PMC 3867433. PMID 24367571.
  4. ^ Habibi, Iman; Emamian, Effat S.; Abdi, Ali (2014-10-07). "Advanced Fault Diagnosis Methods in Molecular Networks". PLOS ONE. 9 (10): e108830. Bibcode:2014PLoSO...9j8830H. doi:10.1371/journal.pone.0108830. ISSN 1932-6203. PMC 4188586. PMID 25290670.
  5. ^ "NEW WIRELESS TECHNOLOGY FOR DATA TRANSMISSION IN CHEMICAL SYSTEMS" (PDF). oaji.net.
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