随机分布的分子纳米节点接收信号强度

Proceedings of the 4th ACM International Conference on Nanoscale Computing and Communication Pub Date : 2017-09-27 DOI:10.1145/3109453.3109466

R. I. Ansari, C. Chrysostomou, Taqwa Saeed, M. Lestas, A. Pitsillides

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引用次数: 0

摘要

我们考虑随机分布在圆形区域的纳米节点，并表征当这些节点中的一对采用分子通信时接收到的信号强度。研究了自由扩散和带漂移扩散两种通信方式。由于节点是随机分布的，因此节点之间的距离可以用随机变量表示，从而得到接收信号强度的随机过程表示。我们推导了这两种分子通信方法的概率密度函数。特别是在自由扩散的情况下，我们还推导了累积分布函数，该函数可用于推导传输成功概率。所提出的工作构成了在许多分子通信方法的考虑设置中对信噪比的表征的第一步。

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Received signal strength for randomly distributed molecular nanonodes

We consider nanonodes randomly distributed in a circular area and characterize the received signal strength when a pair of these nodes employ molecular communication. Two communication methods are investigated, namely free diffusion and diffusion with drift. Since the nodes are randomly distributed, the distance between them can be represented as a random variable, which results in a stochastic process representation of the received signal strength. We derive the probability density function of this process for both molecular communication methods. Specifically for the case of free diffusion we also derive the cumulative distribution function, which can be used to derive transmission success probabilities. The presented work constitutes a first step towards the characterization of the signal to noise ratio in the considered setting for a number of molecular communication methods.

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Proceedings of the 4th ACM International Conference on Nanoscale Computing and Communication

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