Statistical Modelling of Interference for Molecular Nano-Communication | IEEE Conference Publication | IEEE Xplore

Statistical Modelling of Interference for Molecular Nano-Communication


Abstract:

Nanotechnologies are providing a new set of tools to the branch of engineering for producingvarious equipments in a scale ranging from one to a few hundred nanometers. Na...Show More

Abstract:

Nanotechnologies are providing a new set of tools to the branch of engineering for producingvarious equipments in a scale ranging from one to a few hundred nanometers. Nano-networks will expand the capabilities of single nano-devices by providing them a way to cooperate and share information. Exchange of information via nano devices is called “Nano Communication (NC)”. In this paper, Mat’ern Hard-Core Process (MHCP) has been presented to mitigate the interference. First of all, we have reproduced the results of base paper. Thereafter, we have presented similar analytical model using MHCP Type 2. It is worthy to mention that for NC system MHCP is most regular spatial distribution. The analytical expressions have been validated through numerical comparison with the results available in [1] in which Diffusion based molecular nano-networks use the Poisson Point Process(PPP) to define the random distribution of transmitters and receivers in either a two dimensional or a three dimensional space. However, NC is prone to high level of interference among the transmitting nano-machines that causes loss of information. The numerical simulation has been presented here.
Date of Conference: 26-27 October 2018
Date Added to IEEE Xplore: 11 April 2019
ISBN Information:
Conference Location: Greater Noida, India

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