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W3204273194 abstract "One of the main challenges in diffusion-based molecular communication is dealing with the non-linearity of reaction-diffusion chemical equations. While numerical methods can be used to solve these equations, a change in the input signals or the parameters of the medium requires one to redo the simulations. This makes it difficult to design modulation schemes and practically impossible to prove the optimality of a given transmission strategy. In this paper, we provide an analytical technique for modeling the non-linearity of chemical reaction equations based on the perturbation method. The perturbation method expresses the solution in terms of an infinite power series. An approximate solution can be found by keeping the leading terms of the power series. The approximate solution is shown to track the true solution if either the simulation time interval or the reaction rate is sufficiently small. Approximate solutions for long time intervals are also discussed. An illustrative example is given. For this example, it is shown that when the reaction rate (or the total time interval) is low, instead of using a continuous release waveform, it is optimal for the transmitters to release molecules at two time instances." @default.
W3204273194 created "2021-10-11" @default.
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W3204273194 date "2021-12-01" @default.
W3204273194 modified "2023-10-14" @default.
W3204273194 title "An Analytical Model for Molecular Communication Over a Non-Linear Reaction-Diffusion Medium" @default.
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W3204273194 doi "https://doi.org/10.1109/tcomm.2021.3114831" @default.
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