Title :
Channel Model and Capacity Analysis of Molecular Communication with Brownian Motion
Author :
Nakano, Tadashi ; Okaie, Yutaka ; Liu, Jian-Qin
Author_Institution :
Frontier Res. Center, Osaka Univ., Suita, Japan
fDate :
6/1/2012 12:00:00 AM
Abstract :
In this paper, we analyze the capacity of a molecular communication channel in a one dimensional environment where information is represented with molecules that are released by a transmitter nanomachine, propagate via Brownian motion, degrade over time, and stochastically reach the receiver nanomachine. The channel is modeled as a time slotted binary channel, and two modulation schemes are proposed: a naive modulation scheme and an extended modulation scheme with a redundant number of molecules. Our analysis demonstrates that the channel capacity is largely affected by the life expectancy of molecules. Our analysis also indicates that the extended modulation scheme can achieve nearly one bit per slot at the expense of extra molecules under optimal conditions.
Keywords :
Brownian motion; biocommunications; channel capacity; modulation; molecular biophysics; nanobiotechnology; receivers; transmitters; Brownian motion; capacity analysis; channel capacity; channel model; extended modulation scheme; information representation; molecular communication channel; molecule life expectancy; naive modulation scheme; one dimensional environment; receiver nanomachine; time slotted binary channel; transmitter nanomachine; Channel capacity; Channel models; Modulation; Molecular communication; Nanobioscience; Receivers; Transmitters; Molecular communication; binary channel; channel capacity; modulation; nanomachines;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2012.042312.120359
