Title :
Effect of Molecular Noise in Diffusion-Based Molecular Communication
Author :
Singhal, Achintya ; Mallik, Ranjan K. ; Lall, Brejesh
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol. Delhi, New Delhi, India
Abstract :
In this paper, we consider the Langevin model for Brownian motion in a fluid medium. As a molecule travels through a fluid medium, its continuous collision with the molecules of the fluid can be considered as a continuous random force acting on the molecule. This force is the source of uncertainty in the position of the molecule and can be treated as a noise. The mathematical model for such noise is proposed in this work. The role of finite life expectancy of molecules and inter-symbol interference is also considered. Closed form expressions for the probability of error and the channel capacity are derived considering a binary communication scheme. Furthermore, our results illustrate the impact of these parameters on the performance of molecular communication techniques.
Keywords :
Brownian motion; channel capacity; error statistics; intersymbol interference; molecular communication (telecommunication); Brownian motion; Langevin model; binary communication scheme; channel capacity; closed form expressions; error probability; finite life expectancy; fluid medium; intersymbol interference; molecular communication techniques; molecular noise; Channel capacity; Force; Interference; Mathematical model; Receivers; Signal to noise ratio; Brownian motion; Langevin equation; inter-symbol interference (ISI); life expectancy; molecular noise;
Journal_Title :
Wireless Communications Letters, IEEE
DOI :
10.1109/LWC.2014.2345756
