Paper Info
Title
Optimum receiver for molecule shift keying modulation in diffusion-based molecular communication channels
Abstract
Designing an optimum receiver for diffusion-based molecular communication in nano-networks needs a well justified channel model. In this paper, we present a linear and time invariant signal propagation model and an additive noise model for the diffusion-based molecular communication channel. These models are based on Brownian motion molecular statistics. Using these models, we develop the first optimal receiver design for diffusion-based molecular communication scenarios with and without inter-symbol interference. We evaluate the performance of our proposed receiver by investigating the bit error rate for small and large transmission rates.
Year
DOI
Venue
2012
10.1016/j.nancom.2012.09.006
Nano Communication Networks
Keywords
Field
DocType
Nano-networks,Molecular communication,Diffusion-based physical channel,Molecule shift keying,Optimum receiver,Inter symbol interference
Molecular communication,LTI system theory,Computer science,Keying,Communication channel,Electronic engineering,Modulation,Interference (wave propagation),Brownian motion,Bit error rate
Journal
Volume
Issue
ISSN
3
3
1878-7789
Citations 
PageRank 
References 
62
2.78
16
Authors
3
Name
Order
Citations
PageRank
hoda shahmohammadian1813.76
Geoffrey G. Messier223122.19
Sebastian Magierowski323928.56