基于星载大反射面形状测量的移动通信卫星波束形成精确控制

M. Akioka, A. Miura, T. Orikasa, H. Tsuji, M. Toyoshima, Masaki Satoh, Y. Fujino
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引用次数: 0

摘要

为了实现高吞吐量,有效地容纳用户,多波束系统可以使用小波束重复使用多个频带。在卫星上使用具有非常大孔径的反射天线是下一代移动通信卫星用于具有小波束的小型用户终端的有前途的选择。可展开反射器是一种柔性结构,代替了硬碟式反射器。为了提高天线的电气性能,避免像差导致的性能下降,抛物面反射面必须精确成形。我们提出通过优化相控阵参数实现连续波束稳定。如果能够在轨道上精确测量反射面形状,则可以根据测量到的反射面形状以较短的时间延迟更新激励参数,从而连续地校正波束方向图和天线性能。为了使所提出的算法有效地实现天线方向图稳定,反射面形状应适当地确定优化的相控阵参数,以补偿天线方向图的恶化。本研究的目的是确认光束模式校正方法的可行性。对反射面变形使天线方向图恶化的仿真结果表明,采用优化的相控阵参数对反射面形状进行补偿可以补偿变形,恢复天线方向图。
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Precise Control of Beam Formation for Mobile Communication Satellites Based on On-board Measurements of the Shape of the Large Reflector Surface
To achieve high throughput to effectively accommodate users, multi-beam systems reusing several frequency bands with small beams are effective. Using a reflector antenna with a very large aperture on the satellite is a promising option for next-generation mobile communication satellites for small user terminals with small beams. A deployable reflector is a flexible structure instead of the hard dish reflector. To improve the electric al performance of the antenna and avoid performance deterioration caused by aberration, the parabolic reflector must be accurately shaped. We propose continuous beam stabilization by optimizing the parameters for the phased array. If the reflector shape can be measured precisely while in orbit, the beam pattern and antenna performance can be corrected continuously by updating the excitation parameters based on the measured reflector shape with a brief time delay. For the proposed algorithm to perform antenna-pattern stabilization effectively, the shape of the reflector surface should properly determine the optimized phased array parameters to compensate for the deterioration of the antenna pattern. The objective of this study is to confirm the feasibility of the approach to beam pattern correction. The simulations of deformed reflector surfaces deteriorating the antenna pattern reveal that the application of optimized phased array parameters for the reflector shape can compensate for the deformation and recover the antenna pattern.
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