Neural Network Based LEO Phased Array Antenna Gain Loss Prediction

2022 14th International Conference on Communications (COMM) Pub Date : 2022-06-16 DOI:10.1109/comm54429.2022.9817241
R. Wünsche, M. Krondorf
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引用次数: 1

Abstract

This paper proposes a neural network-based time-series predictor for the antenna gain loss of phased array beam-forming antennas in LEO satellite communication systems. The gain loss is caused by the limited set of discrete antenna beam pointing vectors which leads to a non-optimal antenna steering and thus to a varying receiving power. The main purpose of the predictor is to reduce the fixed margin in adaptive coding and modulation systems by eliminating the time delay for signaling and MODCOD switching. This paper explains the antenna gain loss effect and how to use Monte-Carlo simulations to train the neural network. The benefit of the predictor is demonstrated by a LEO satellite example system.
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基于神经网络的低轨道相控阵天线增益损耗预测
提出了一种基于神经网络的低轨道卫星通信系统相控阵波束形成天线增益损耗时间序列预测方法。增益损失是由有限的离散天线波束指向向量集引起的,这将导致天线的非最优转向,从而导致接收功率的变化。预测器的主要目的是通过消除信令和MODCOD交换的时间延迟来减少自适应编码和调制系统中的固定裕度。本文阐述了天线增益损耗效应以及如何利用蒙特卡罗模拟训练神经网络。通过低轨道卫星实例系统验证了该预测器的有效性。
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2022 14th International Conference on Communications (COMM)
2022 14th International Conference on Communications (COMM)
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