Daniel P. Martins
ABSTRACT
Some characteristics of the operation of synthetic biology system are not well-explained using digital electronics, but they can be modelled using analog electronics. In this paper, we contribute to the characterization of bacteria internal signal processing by using an analog circuit analysis to show the impact of the binding/unbinding of molecules on a molecular communications system.
- Dadi Bi, Apostolus Almpanis, Adam Noel, Yansha Deng, and Robert Schober. 2021. A survey of molecular communication in cell biology: Establishing a new hierarchy for interdisciplinary applications. IEEE Communications Surveys & Tutorials (2021).Google Scholar
- Daniel P Martins, Huong Q O'Reilly, Lee Coffey, Paul D Cotter, and Sasitharan Balasubramaniam. 2020. Hydrogel-based Bio-nanomachine Transmitters for Bacterial Molecular Communications. In Proceedings of the 1st ACM International Workshop on Nanoscale Computing, Communication, and Applications. 14--19.Google ScholarDigital Library
- R Sarpeshkar. 2014. Analog synthetic biology. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 372, 2012 (2014), 20130110.Google ScholarCross Ref
- Bige D Unluturk, A Ozan Bicen, and Ian F Akyildiz. 2015. Genetically engineered bacteria-based biotransceivers for molecular communication. IEEE Transactions on Communications 63, 4 (2015), 1271--1281.Google ScholarCross Ref
Index Terms
- Binding Process Analysis of Bacterial-based AND Logic Gates
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