Constant Envelope Precoding with Extended Degrees of Freedom through Per-User Symbol Scaling

Yi Wang; Ning Chen; Fan Liu; Ang Li; Jianming Zhou; Christos Masouros

doi:10.1109/LCOMM.2020.3048716

Constant Envelope Precoding with Extended Degrees of Freedom through Per-User Symbol Scaling

Yi Wang, Ning Chen, Fan Liu, Ang Li, Jianming Zhou^*, Christos Masouros

^*Corresponding author for this work

School of Integrated Circuits and Electronics

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

1 Citation (Scopus)

Abstract

In this letter, we propose a novel constant envelope precoding (CEP) design for multi-user multi-input single-output (MU-MISO) downlink, where we exploit the extra degrees of freedom (DoFs) by allowing individual rotation and scaling for each constellation point. By jointly optimizing the transmitting signal matrix and the complex scaling factors, the signal-to-interference-and-noise-ratio (SINR) at the receiver is maximized. The formulated optimization problem is divided into two sub-problems and solved by the alternating optimization approach. We further propose a simplified gradient descent algorithm and extend our algorithm to frame-level precoding design. Simulation results show that the proposed algorithms outperform the existing CEP algorithms in terms of both symbol error rate (SER) and computational complexity.

Original language	English
Article number	9312135
Pages (from-to)	1620-1624
Number of pages	5
Journal	IEEE Communications Letters
Volume	25
Issue number	5
DOIs	https://doi.org/10.1109/LCOMM.2020.3048716
Publication status	Published - May 2021

Keywords

Alternating optimization
Dinkelbach method
constant envelope precoding
gradient projection
per-user scaling and rotating

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10.1109/LCOMM.2020.3048716

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title = "Constant Envelope Precoding with Extended Degrees of Freedom through Per-User Symbol Scaling",

abstract = "In this letter, we propose a novel constant envelope precoding (CEP) design for multi-user multi-input single-output (MU-MISO) downlink, where we exploit the extra degrees of freedom (DoFs) by allowing individual rotation and scaling for each constellation point. By jointly optimizing the transmitting signal matrix and the complex scaling factors, the signal-to-interference-and-noise-ratio (SINR) at the receiver is maximized. The formulated optimization problem is divided into two sub-problems and solved by the alternating optimization approach. We further propose a simplified gradient descent algorithm and extend our algorithm to frame-level precoding design. Simulation results show that the proposed algorithms outperform the existing CEP algorithms in terms of both symbol error rate (SER) and computational complexity.",

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author = "Yi Wang and Ning Chen and Fan Liu and Ang Li and Jianming Zhou and Christos Masouros",

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AU - Wang, Yi

AU - Chen, Ning

AU - Liu, Fan

AU - Li, Ang

AU - Zhou, Jianming

AU - Masouros, Christos

PY - 2021/5

Y1 - 2021/5

N2 - In this letter, we propose a novel constant envelope precoding (CEP) design for multi-user multi-input single-output (MU-MISO) downlink, where we exploit the extra degrees of freedom (DoFs) by allowing individual rotation and scaling for each constellation point. By jointly optimizing the transmitting signal matrix and the complex scaling factors, the signal-to-interference-and-noise-ratio (SINR) at the receiver is maximized. The formulated optimization problem is divided into two sub-problems and solved by the alternating optimization approach. We further propose a simplified gradient descent algorithm and extend our algorithm to frame-level precoding design. Simulation results show that the proposed algorithms outperform the existing CEP algorithms in terms of both symbol error rate (SER) and computational complexity.

AB - In this letter, we propose a novel constant envelope precoding (CEP) design for multi-user multi-input single-output (MU-MISO) downlink, where we exploit the extra degrees of freedom (DoFs) by allowing individual rotation and scaling for each constellation point. By jointly optimizing the transmitting signal matrix and the complex scaling factors, the signal-to-interference-and-noise-ratio (SINR) at the receiver is maximized. The formulated optimization problem is divided into two sub-problems and solved by the alternating optimization approach. We further propose a simplified gradient descent algorithm and extend our algorithm to frame-level precoding design. Simulation results show that the proposed algorithms outperform the existing CEP algorithms in terms of both symbol error rate (SER) and computational complexity.

KW - Alternating optimization

KW - Dinkelbach method

KW - constant envelope precoding

KW - gradient projection

KW - per-user scaling and rotating

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Constant Envelope Precoding with Extended Degrees of Freedom through Per-User Symbol Scaling

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