Study of Symbol Error Probability Constrained Precoding with Zero-Crossing Modulation for Wireless Systems with 1-Bit ADCs

TL;DR

This paper introduces a novel precoding technique for multiuser MIMO systems with 1-bit ADCs, optimizing symbol error probability constraints to improve performance in high-frequency wireless communications.

Contribution

It presents a new precoding method incorporating symbol error probability constraints for systems with 1-bit quantization and oversampling, addressing energy efficiency and low complexity.

Findings

Improved symbol error rate performance demonstrated in simulations.

Effective precoding design under various system parameters.

Enhanced robustness to quantization effects in high-frequency bands.

Abstract

The next generation of wireless communications systems will employ new frequency bands such as those in the upper midband, millimeter-wave and sub-terahertz frequency bands. The high energy consumption of analog-to-digital converters resulting from their high resolution constituted a major limitation for future wireless communications systems, which will require low energy consumption and low-complexity devices at the transmitter and at the receiver. In this regard, we present a novel precoding method based on quality of service constraints for a multiuser multiple-input multiple-output downlink system with 1-bit quantization and oversampling. For this scenario, we consider the time-instance zero-crossing modulation, which conveys the information into the zero-crossings of the signals. Unlike prior works the proposed constraint is given in terms of the symbol error probability related to the minimum distance to the decision threshold and is included in the proposed optimization problem that is used in the design of the precoder. Simulation results illustrate the performance of the proposed precoding method evaluated under different parameters and scenarios.