Wireless network coding for MIMO two-way relaying using Latin Rectangles

Muralidharan, Vijayvaradharaj T. ; Sundar Rajan, B. (2012) Wireless network coding for MIMO two-way relaying using Latin Rectangles In: 2012 IEEE International Symposium on Information Theory Proceedings (ISIT), 01-06 Jul 2012, Cambridge, MA.

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Official URL: http://ieeexplore.ieee.org/document/6283725/

Related URL: http://dx.doi.org/10.1109/ISIT.2012.6283725

Abstract

The design of modulation schemes for the physical layer network-coded two-way MIMO relaying scenario is considered, with the denoise-and-forward (DNF) protocol which employs two phases: Multiple access (MA) phase and Broadcast (BC) phase. It is shown that for MIMO two-way relaying, deep fade occurs at the relay when the row space of the channel fade coefficient matrix is a subspace of a finite number of vector subspaces which are referred to as the singular fade subspaces. It is shown that proper choice of network coding map obtained by the completion of appropriate partially filled Latin Rectangle can remove most of the singular fade subspaces, referred to as the removable singular fade subspaces. For 2λ-PSK signal set, the number of removable and non-removable singular fade subspaces are obtained analytically and it is shown that the number of non-removable singular fade subspaces is a small fraction of the total number of singular fade subspaces. The Latin Rectangles for the case when the end nodes use different number of antennas are shown to be obtainable from the Latin Squares for the case when they use the same number of antennas, irrespective of the number of antennas at the relay. For 2λ-PSK signal set, the singular fade subspaces which are removed by the conventional XOR network code are identified. Also, using the notions of isotopic and transposed Latin Squares, the network coding maps which remove all the removable singular singular fade subspaces are shown to be obtainable from a small set of Latin Squares.

Item Type:Conference or Workshop Item (Paper)
Source:Copyright of this article belongs to Institute of Electrical and Electronics Engineers.
ID Code:110263
Deposited On:08 Dec 2017 10:21
Last Modified:08 Dec 2017 10:21

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