Abstract
The Additive Inverse Gaussian Noise Channel can be used as a model for
molecular communication between nano devices in a fluid. Recently, new
analytical lower and upper bounds on the capacity with average-delay
and peak-delay constraints were found. This thesis presents improved
analytical upper bounds for low drift velocities and presents a
closed-form for the output density of a cut-exponential input
distribution. Further, different lower bounds for low drift velocities
are analyzed numerically using a mixture of a cut-exponential and two
Dirac deltas as input distribution.
-||- _|_ _|_ / __|__ Stefan M. Moser
[-] --__|__ /__\ /__ Senior Scientist, ETH Zurich, Switzerland
_|_ -- --|- _ / / Adjunct Professor, National Yang Ming Chiao Tung University, Taiwan
/ \ [] \| |_| / \/ Web: https://moser-isi.ethz.ch/
Last modified: Fri Nov 14 08:51:33 UTC+8 2014