Collision Bottleneck Throughput in Bacterial Conjugation-based Nanonetworks PROJECT TITLE :Collision Bottleneck Throughput in Bacterial Conjugation-based NanonetworksABSTRACT:Bacterial conjugation-based nanonetwork has been recently proposed as a novel molecular Communication paradigm, in which the bacteria act as carriers. This is the foundational work proposing the phenomenon of collision which occurs in the form of multi-conjugation of multiple carrier bacteria at the side of receiver nanodevice. We show the effect of this conjugation-based collision on the maximum achievable throughput of the network, using a simple graph-theoretic approach, namely, Maximum Weight Bipartite Matching . One of the several interesting results that emerges concerns the maximum achievable throughput, which is bounded by $Theta(n/p)$ in case of homogeneous nodes, where $n$ and $p$ refer to the total number of nodes, and the vertical layers in the network, respectively. Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Error Performance of Diffusion-Based Molecular Communication Using Pulse-Based Modulation RGFinder: A System for Determining Semantically Related Genes Using GO Graph Minimum Spanning Tree
