Weak-signal phase calibration strategies for large DSN arrays

2005 IEEE Aerospace Conference Pub Date : 2005-03-05 DOI:10.1109/AERO.2005.1559406

D.L. Jones

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引用次数: 2

Abstract

The NASA Deep Space Network (DSN) is studying arrays of large numbers of small, mass-produced radio antennas as a cost-effective way to increase downlink sensitivity and data rates for future missions. An important issue for the operation of large arrays is the accuracy with which signals from hundreds of small antennas can be combined. This is particularly true at Ka band (32 GHz) where atmospheric phase variations can be large and rapidly changing. A number of algorithms exist to correct the phases of signals from individual antennas in the case where a spacecraft signal provides a useful signal-to-noise ratio (SNR) on time scales shorter than the atmospheric coherence time. However, for very weak spacecraft signals it will be necessary to rely on background natural radio sources to maintain array phasing. Very weak signals could result from a spacecraft emergency or by design, such as direct-to-Earth data transmissions from distant planetary atmospheric or surface probes using only low gain antennas. This paper considers the parameter space where external real-time phase calibration will be necessary, and what this requires in terms of array configuration and signal processing. The inherent limitations of this technique are also discussed

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大型深空网络阵列的弱信号相位校准策略

美国宇航局深空网络(DSN)正在研究大量小型、批量生产的无线电天线阵列，作为一种经济有效的方法，以提高未来任务的下行链路灵敏度和数据速率。对于大型阵列的操作来说，一个重要的问题是来自数百个小天线的信号可以组合的准确性。在Ka波段(32 GHz)尤其如此，因为那里的大气相位变化很大，变化很快。在航天器信号在短于大气相干时间的时间尺度上提供有用的信噪比(SNR)的情况下，存在许多算法来校正来自单个天线的信号相位。然而，对于非常微弱的航天器信号，有必要依靠背景自然射电源来维持阵列相位。非常微弱的信号可能是由航天器紧急情况或设计造成的，例如仅使用低增益天线从遥远的行星大气或表面探测器直接向地球传输数据。本文考虑了需要外部实时相位校准的参数空间，以及这在阵列配置和信号处理方面的要求。还讨论了该技术的固有局限性

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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2005 IEEE Aerospace Conference

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