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Fixed-point methods for long-term power control and beamforming design in large-scale MIMO

Author:
Lorenzo Miretti, Renato L. G. Cavalcante, Sławomir Stańczak
Keyword:
Computer Science, Information Theory, Information Theory (cs.IT), Signal Processing (eess.SP)
journal:
--
date:
2023-12-04 00:00:00
Abstract
This study presents novel applications of fixed-point methods to solve previously open joint power control and beamforming design problems in modern large-scale MIMO systems, e.g., based on the cell-free massive MIMO and XL-MIMO concepts. In particular, motivated by the need for scalable system architectures, we revisit the classical sum power minimization and max-min fair design criteria by considering long-term power control and beamforming design based on channel statistics and possibly limited channel state information (CSI) sharing across distributed processing units. This approach is believed to mitigate the severe scalability issues of competing short-term optimal algorithms in the literature, which must be executed for every channel realization by a central controller endowed with global CSI, hence imposing very demanding requirements in terms of computation and interconnection capabilities. The obtained optimal algorithms are then illustrated and compared against existing short-term and long-term approaches via numerical simulations in a cell-free massive MIMO setup.
PDF: Fixed-point methods for long-term power control and beamforming design in large-scale MIMO.pdf
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