Cyclic Interference Neutralization on the 2x2x2 Full-Duplex Two-Way Relay-Interference Channel
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Abstract
A two-way relay-interference channel describes a system of four communicating transceivers with two interjacent parallel relays arranged in a bidirectional 2 × 2 × 2 relay- interference network. Two pairs of transceivers are each communicating bidirectionally with the aid of both relays. All transceivers and relays are assumed to operate in full-duplex mode.
Since Interference Neutralization is known as a promising method to achieve the cut-set upper bounds on the data rates of the unidirectional relay interference channel, we investigate a Cyclic Interference Neutralization scheme on the corresponding bidirectional relay-interference channel w.r.t. a conceptual channel model based on a polynomial ring. We show that, if the channel matrix satisfies a certain set of symmetry conditions, a total number of 4 degrees of freedom is asymptotically achievable.
BibTEX Reference Entry
@inproceedings{MaMa13b, author = {Henning Maier and Rudolf Mathar}, title = "Cyclic Interference Neutralization on the 2x2x2 Full-Duplex Two-Way Relay-Interference Channel", pages = "644-648", booktitle = "Information Theory Workshop (ITW 2013)", address = {Sevilla, Spain}, month = Sep, year = 2013, hsb = hsb999910325573 , }
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