On the capacity of generalized-K fading MIMO channels

Michail Matthaiou; Nestor D. Chatzidiamantis; George K. Karagiannidis; Josef A. Nossek

doi:10.1109/TSP.2010.2058108

On the capacity of generalized-K fading MIMO channels

Michail Matthaiou
, Nestor D. Chatzidiamantis
, George K. Karagiannidis
, Josef A. Nossek

Chair of Circuit Theory and Signal Processing (2008 — 2021)

Technical University of Munich
Chalmers University of Technology
Aristotle University of Thessaloniki

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

This correspondence explores the ergodic capacity of multiple-input multiple-output (MIMO) systems operating in generalized-K fading conditions. Using some recent results on majorization theory, we derive an analytical capacity bound which is applicable for arbitrary values of the signal-to-noise ratio (SNR) and number of antenna elements. In addition, we deduce simple bound approximations in the high-SNR regime and demonstrate that the effects of small and large-scale fading are decoupled. A similar statistical analysis is carried out for MIMO channels under K -fading, which represents a special case of generalized-K fading that can be tackled via the Wishart matrix theory. The implications of the model parameters on the bound performance are also investigated via Monte Carlo simulations.

Original language	English
Article number	5510179
Pages (from-to)	5939-5944
Number of pages	6
Journal	IEEE Transactions on Signal Processing
Volume	58
Issue number	11
DOIs	https://doi.org/10.1109/TSP.2010.2058108
State	Published - Nov 2010

Keywords

Ergodic capacity
MIMO systems
generalized-K fading
majorization theory

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10.1109/TSP.2010.2058108

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abstract = "This correspondence explores the ergodic capacity of multiple-input multiple-output (MIMO) systems operating in generalized-K fading conditions. Using some recent results on majorization theory, we derive an analytical capacity bound which is applicable for arbitrary values of the signal-to-noise ratio (SNR) and number of antenna elements. In addition, we deduce simple bound approximations in the high-SNR regime and demonstrate that the effects of small and large-scale fading are decoupled. A similar statistical analysis is carried out for MIMO channels under K -fading, which represents a special case of generalized-K fading that can be tackled via the Wishart matrix theory. The implications of the model parameters on the bound performance are also investigated via Monte Carlo simulations.",

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AU - Matthaiou, Michail

AU - Chatzidiamantis, Nestor D.

AU - Karagiannidis, George K.

AU - Nossek, Josef A.

PY - 2010/11

Y1 - 2010/11

N2 - This correspondence explores the ergodic capacity of multiple-input multiple-output (MIMO) systems operating in generalized-K fading conditions. Using some recent results on majorization theory, we derive an analytical capacity bound which is applicable for arbitrary values of the signal-to-noise ratio (SNR) and number of antenna elements. In addition, we deduce simple bound approximations in the high-SNR regime and demonstrate that the effects of small and large-scale fading are decoupled. A similar statistical analysis is carried out for MIMO channels under K -fading, which represents a special case of generalized-K fading that can be tackled via the Wishart matrix theory. The implications of the model parameters on the bound performance are also investigated via Monte Carlo simulations.

AB - This correspondence explores the ergodic capacity of multiple-input multiple-output (MIMO) systems operating in generalized-K fading conditions. Using some recent results on majorization theory, we derive an analytical capacity bound which is applicable for arbitrary values of the signal-to-noise ratio (SNR) and number of antenna elements. In addition, we deduce simple bound approximations in the high-SNR regime and demonstrate that the effects of small and large-scale fading are decoupled. A similar statistical analysis is carried out for MIMO channels under K -fading, which represents a special case of generalized-K fading that can be tackled via the Wishart matrix theory. The implications of the model parameters on the bound performance are also investigated via Monte Carlo simulations.

KW - Ergodic capacity

KW - MIMO systems

KW - generalized-K fading

KW - majorization theory

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M3 - Article

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JO - IEEE Transactions on Signal Processing

JF - IEEE Transactions on Signal Processing

IS - 11

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ER -

On the capacity of generalized-K fading MIMO channels

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