Title :
Collision Bottleneck Throughput in Bacterial Conjugation-based Nanonetworks
Author :
Islam, Nabiul ; Misra, Sudip
Author_Institution :
Indian Inst. of Technol., Kharagpur, Kharagpur, India
Abstract :
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 Θ(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.
Keywords :
biocommunications; biomedical electronics; collision processes; graph theory; microorganisms; molecular biophysics; nanobiotechnology; small-world networks; bacterial conjugation-based nanonetworks; collision bottleneck throughput; collision phenomenon; conjugation-based collision effect; homogeneous nodes; maximum weight bipartite matching; molecular communication paradigm; multiple carrier bacteria multiconjugation form; network vertical layers; receiver nanodevice; simple graph-theoretic approach; total node number; Bipartite graph; Equations; Mathematical model; Microorganisms; Nanobioscience; Receivers; Throughput; Bacterial multi-conjugation collision; molecular communication; nanonetworks; throughput;
Journal_Title :
NanoBioscience, IEEE Transactions on
DOI :
10.1109/TNB.2014.2363002
