Linearization of massive MIMO arrays is a significant computational challenge that typically scales with the number of antennas. In this work, we introduce a beam-oriented digital predistortion (DPD) scheme for OFDM-based massive MIMO systems that applies predistortion before the precoder in the OFDM guard-band subcarriers. Using simulation results, we show that, for a 64 antenna massive MIMO array, our proposed method can achieve the same DPD performance as a conventional DPD method while requiring an order of magnitude fewer multiplications
Power amplifiers (PAs) are the most power-hungry components in base stations (BSs), and thus they sig...
This article investigates digital predistortion (DPD) linearization of hybrid beamforming large-scal...
Digital predistortion (DPD) is a method commonly used to compensate for the nonlinear effects of pow...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
In this article, a novel digital predistortion (DPD) solution for fully digital multiple-input–multi...
In this article, a novel digital predistortion (DPD) solution for fully digital multiple-input–multi...
A novel reduced-complexity digital predistortion (DPD) solution is presented in this paper. The prop...
In this article, we propose a novel digital predistortion (DPD) solution that allows to considerably...
In this paper, we study the effect of optimizing the per-antenna digital predistortion (DPD) sizes o...
This article investigates digital predistortion (DPD) linearization of hybrid beamforming large-scal...
Power amplifiers (PAs) are the most power-hungry components in base stations (BSs), and thus they sig...
This article investigates digital predistortion (DPD) linearization of hybrid beamforming large-scal...
Digital predistortion (DPD) is a method commonly used to compensate for the nonlinear effects of pow...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
Linearization of massive MIMO arrays is a significant computational challenge that typically scales ...
In this article, a novel digital predistortion (DPD) solution for fully digital multiple-input–multi...
In this article, a novel digital predistortion (DPD) solution for fully digital multiple-input–multi...
A novel reduced-complexity digital predistortion (DPD) solution is presented in this paper. The prop...
In this article, we propose a novel digital predistortion (DPD) solution that allows to considerably...
In this paper, we study the effect of optimizing the per-antenna digital predistortion (DPD) sizes o...
This article investigates digital predistortion (DPD) linearization of hybrid beamforming large-scal...
Power amplifiers (PAs) are the most power-hungry components in base stations (BSs), and thus they sig...
This article investigates digital predistortion (DPD) linearization of hybrid beamforming large-scal...
Digital predistortion (DPD) is a method commonly used to compensate for the nonlinear effects of pow...