Title :
Capacity of the Memoryless Additive Inverse Gaussian Noise Channel
Author :
Hui Li ; Moser, Stefan M. ; Dongning Guo
Author_Institution :
Univ. of Sci. & Technol. of China, Hefei, China
Abstract :
The memoryless additive inverse Gaussian noise channel model describing communication based on the exchange of chemical molecules in a drifting liquid medium is investigated for the situation of simultaneously an average-delay and a peak-delay constraint. Analytical upper and lower bounds on its capacity in bits per molecule use are presented. These bounds are shown to be asymptotically tight, i.e., for the delay constraints tending to infinity with their ratio held constant (or for the drift velocity of the fluid tending to infinity), the asymptotic capacity is derived precisely. Moreover, characteristics of the capacity-achieving input distribution are derived that allow accurate numerical computation of capacity. The optimal input appears to be a mixed continuous and discrete distribution.
Keywords :
Gaussian channels; Gaussian noise; asymptotic capacity; capacity-achieving input distribution; chemical molecules exchange; continuous distribution; delay constraints; discrete distribution; drift velocity; drifting liquid medium; memoryless additive inverse Gaussian noise channel; numerical computation; peak-delay constraint; Delays; Gaussian noise; Molecular communication; Noise measurement; Receivers; Transmitters; Upper bound; Additive inverse Gaussian noise; Brownian motion; average- and peak-delay constraints; channel capacity; molecular communication;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2014.2367673
