Random matrices and the impact of imperfect channel knowledge on cooperative base stations

Manolakis, K.; Oberli Graf, Christian Robert; Jungnickel, V.

Random matrices and the impact of imperfect channel knowledge on cooperative base stations

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Random matrices and the impact of imperfect channel knowledge on cooperative base stations.pdf(2.68 KB)

Date

2013

Authors

Manolakis, K.

Oberli Graf, Christian Robert

Jungnickel, V.

Publisher

IEEE

Abstract

Base station cooperation is a very promising technique for reducing inter-cell interference and enhancing spectral efficiency in next generation cellular systems. However, imperfect precoding at the base stations is limiting the potential gains. In this paper, we present a downlink signal model with impaired zero-forcing precoding and analyze self-user signal and inter-user interference. Properties of Wishart-distributed random matrices are used for calculating the average inverse eigenvalues. We provide closed-form expressions for signal to interference ratio (SIR) bounds, which are found inversely proportional to the mean square error of the base station's channel knowledge. Further, it is found that the SIR increases with the ratio of number of base stations to number of users. Numerical evaluation agrees with analytical results.

Keywords

Niobium, Base stations, Interference, Eigenvalues and eigenfunctions, Channel estimation, Downlink, Fading

URI

https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=6612096
https://doi.org/10.1109/SPAWC.2013.6612096
https://repositorio.uc.cl/handle/11534/64002

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