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Conference paper

Approximating the constellation constrained capacity of the MIMO channel with discrete input

By Yankov, Metodi Plamenov1,2; Forchhammer, Søren1,2; Larsen, Knud J.1,2; Christensen, Lars P. B.3

From

Department of Photonics Engineering, Technical University of Denmark1

Coding and Visual Communication, Department of Photonics Engineering, Technical University of Denmark2

Fingerprint Cards3

In this paper the capacity of a Multiple Input Multiple Output (MIMO) channel is considered, subject to average power constraint, for multi-dimensional discrete input, in the case when no channel state information is available at the transmitter. We prove that when the constellation size grows, the QAM constrained capacity converges to Gaussian capacity, directly extending the AWGN result from [1].

Simulations show that for a given constellation size, a rate close to the Gaussian capacity can be achieved up to a certain SNR point, which can be found efficiently by optimizing the constellation for the equivalent orthogonal channel, obtained by the singular value decomposition. Furthermore, lower bounds on the constrained capacity are derived for the cases of square and tall MIMO matrix, by optimizing the constellation for the equivalent channel, obtained by QR decomposition.

Language: English
Publisher: IEEE
Year: 2015
Pages: 4018-4023
Proceedings: 2015 IEEE International Conference on Communications
ISBN: 1467364304 , 1467364312 , 1467364320 , 9781467364300 , 9781467364317 and 9781467364324
ISSN: 19381883 and 15503607
Types: Conference paper
DOI: 10.1109/ICC.2015.7248952
ORCIDs: Yankov, Metodi Plamenov , Forchhammer, Søren and Larsen, Knud J.
Keywords

AWGN channels Channel capacity Interference channels MIMO Matrix decomposition Quadrature amplitude modulation Signal to noise ratio

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