Influence of quadrature transformation imbalance on the noise immunity of signal reception with amplitude-phase shift keying

G. V. Kulikov, X. K. Dang
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Abstract

Objectives. At the present time, amplitude-phase shift keyed (APSK) signals are actively used in satellite communication systems. In particular, they are applied in systems which operate in a limited radio frequency spectrum with increased data transmission quality requirements. Such systems use multi-channel type receivers with maximum likelihood decision on the received symbol (correlation receiver) or quadrature type receivers. The noise immunity of these receivers is directly dependent on the quality of the formation of reference oscillations. These oscillations are reference signals for correlation receivers and in-phase and quadrature components for quadrature receivers. The aim of the work is to analyze the influence of the amplitude and phase parameter spread of the in-phase and quadrature channels on the noise immunity of receiving APSK signals with a circular shape of the signal constellation.Methods. Methods of statistical radio engineering, theory of optimal signal reception, and computer simulation are used.Results. The study established the characteristics of noise immunity of the APSK signal reception depending on the spread of parameters of the quadrature converter. The theoretical calculations were confirmed by the results of modeling the transmission of APSK signals in a Gaussian communication channel. A comparison with systems using quadrature amplitude modulation (QAM) was carried out, in order to assess system stability in the presence of spread parameters among other similar systems.Conclusions. The studies enabled us to conclude that an imbalance of the quadrature reference oscillations can lead to a significant decrease in the noise immunity of radio systems using APSK signals. The minimum energy loss due to imbalance of quadrature reference oscillations is achieved when the imbalance value is less than 10% in amplitude and 2°–3° in phase. The amplitude imbalance of quadrature reference oscillations when receiving QAM signals is more pronounced than in the case of APSK signals. The phase imbalance affects approximately the same.
正交变换不平衡对振幅相移键控信号接收抗噪能力的影响
目的。目前,幅相移键控(APSK)信号在卫星通信系统中得到了广泛应用。特别是,它们被应用于在有限的无线电频谱内运行、对数据传输质量要求较高的系统中。这类系统使用对接收符号进行最大似然判定的多通道接收器(相关接收器)或正交接收器。这些接收器的抗噪能力直接取决于参考振荡的形成质量。这些振荡对于相关接收器来说是参考信号,对于正交接收器来说是同相和正交分量。这项工作的目的是分析同相和正交信道的振幅和相位参数扩散对接收圆形信号星座 APSK 信号的抗噪能力的影响。方法:采用无线电统计工程学方法、最佳信号接收理论和计算机仿真。研究确定了 APSK 信号接收的抗噪特性取决于正交转换器参数的分布。在高斯通信信道中传输 APSK 信号的建模结果证实了理论计算结果。与使用正交振幅调制(QAM)的系统进行了比较,以评估其他类似系统在参数扩散情况下的系统稳定性。通过研究,我们得出结论:正交参考振荡的不平衡会导致使用 APSK 信号的无线电系统的抗噪能力显著下降。当正交参考振荡的不平衡值在振幅上小于 10%、在相位上小于 2°-3° 时,因正交参考振荡不平衡而造成的能量损失最小。接收 QAM 信号时,正交参考振荡的振幅不平衡比接收 APSK 信号时更为明显。相位不平衡的影响大致相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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