Schäfer M, Wicke W, Haselmayr W, Rabenstein R, Schober R (2020)
Publication Language: English
Publication Type: Conference contribution, Conference Contribution
Publication year: 2020
DOI: 10.1109/icc40277.2020.9149441
The derivation of suitable analytical models is an important step for the design and analysis of molecular commu- nication systems. However, many existing models have limited applicability in practical scenarios due to various simplifications (e.g., assumption of an unbounded environment). In this paper, we develop a realistic model for particle diffusion in a bounded sphere and particle transport through a semi-permeable bound- ary. This model can be used for various applications, such as modeling of inter-/intra-cell communication or the release process of drug carriers. The proposed analytical model is based on a transfer function approach, which allows for fast numerical evaluation and provides insights into the impact of the relevant molecular communication system parameters. The proposed solution of the bounded spherical diffusion problem is formulated in terms of a state-space description and the semi-permeable boundary is accounted for by a feedback loop. Particle-based simulations verify the proposed modeling approach.
APA:
Schäfer, M., Wicke, W., Haselmayr, W., Rabenstein, R., & Schober, R. (2020). Spherical Diffusion Model with Semi-Permeable Boundary: A Transfer Function Approach. In Proceedings of the IEEE International Conference on Communications (ICC). Dublin, IE.
MLA:
Schäfer, Maximilian, et al. "Spherical Diffusion Model with Semi-Permeable Boundary: A Transfer Function Approach." Proceedings of the IEEE International Conference on Communications (ICC), Dublin 2020.
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