On the capacity of linear additive channels with the noise spanning Hermite functions

Ajeeb, Nizar Hafez.

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dc.contributor.author	Ajeeb, Nizar Hafez.
dc.date.accessioned	2013-10-02T09:22:36Z
dc.date.available	2013-10-02T09:22:36Z
dc.date.issued	2012
dc.identifier.uri	http://hdl.handle.net/10938/9559
dc.description	Thesis (M.E.)--American University of Beirut, Department of Electrical and Computer Engineering, 2012.
dc.description	Advisor : Dr. Ibrahim Abou-Faycal, Associate Professor, Electrical and Computer Engineering--Members of Committee : Dr. Zaher Dawy, Associate Professor, Electrical and Computer Engineering ; Dr. Bassam Shayya, Professor, Mathematics.
dc.description	Includes bibliographical references (leaves 48-49)
dc.description.abstract	We consider a linear additive noise channel where the input is average-power constrained and the noise probability law is not necessarily Gaussian, but is rather in the finite span of even Hermite Functions. We study the nature of the capacity achieving input distribution of such a channel. It's well known, by Shannon's Theorem, that the capacity achieving distribution of the described channel is of a continuous type, namely Gaussian, whenever the noise is Gaussian. In our study, we present some sample case analysis and develop a general procedure that proves the discreteness of the capacity achieving distribution whenever the noise is in the finite span of even Hermite Functions with the exception of the Gaussian.
dc.format.extent	vi, 49 leaves ; 30 cm.
dc.language.iso	eng
dc.relation.ispartof	Theses, Dissertations, and Projects
dc.subject.classification	ET:005743 AUBNO
dc.subject.lcsh	Hermite polynomials.
dc.subject.lcsh	Gaussian processes.
dc.subject.lcsh	Noise.
dc.subject.lcsh	Information theory.
dc.subject.lcsh	Wireless communication systems.
dc.subject.lcsh	Mathematical optimization.
dc.title	On the capacity of linear additive channels with the noise spanning Hermite functions
dc.type	Thesis
dc.contributor.department	American University of Beirut. Faculty of Engineering and Architecture. Department of Electrical and Computer Engineering.

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