Design of a molecular communication channel by modelling enzyme kinetics

Conference contribution
(Conference Contribution)


Publication Details

Author(s): Rabenstein R
Editor(s): Felix Breitenecker, Andreas Kugi, Inge Troch
Publisher: IFAC Secretariat
Publication year: 2015
Volume: 48
Pages range: 35-40


Abstract


Molecular communication channels transmit information by the release and detection of chemical substances. Single information bits can be encoded as individual releases of certain amounts of molecules. Intersymbol interference between successive releases can be minimized by enforcing a decay of the substrate concentration through enzyme reactions. A model for the short term behaviour of the enzyme kinetics is employed to derive the achievable symbol transmission rate in terms of the parameters of the enzyme reaction and the sensitivity of the substrate receptor. The resulting relation facilitates the design of the biochemical environment for efficient molecular communication.



FAU Authors / FAU Editors

Rabenstein, Rudolf Prof. Dr.
Lehrstuhl für Multimediakommunikation und Signalverarbeitung


How to cite

APA:
Rabenstein, R. (2015). Design of a molecular communication channel by modelling enzyme kinetics. In Felix Breitenecker, Andreas Kugi, Inge Troch (Eds.), (pp. 35-40). Vienna, AT: IFAC Secretariat.

MLA:
Rabenstein, Rudolf. "Design of a molecular communication channel by modelling enzyme kinetics." Proceedings of the 8th Vienna International Conference on Mathematical Modelling, MATHMOD 2015, Vienna Ed. Felix Breitenecker, Andreas Kugi, Inge Troch, IFAC Secretariat, 2015. 35-40.

BibTeX: 

Last updated on 2018-19-04 at 03:34