Spacecraft Doppler tracking: Noise budget and accuracy achievable in precision radio science observations

S. W. Asmar; J. W. Armstrong; L. Iess; P. Tortora

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Spacecraft Doppler tracking: Noise budget and accuracy achievable in precision radio science observations

机译：航天器多普勒跟踪：精确的无线电科学观测可实现噪声预算和精度

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We discuss noise in Doppler tracking of deep space probes and provide a detailed noise model for Doppler radio science experiments. The most sensitive current experiments achieve fractional frequency fluctuation noise of about 3 x 10~(-15) at 1000-s integration time, corresponding to better than 1 micron per second velocity noise. Our noise model focuses primarily on the Fourier range ≈10~(-4)-1 Hz, but we briefly discuss noise in lower-frequency observations. We indicate applications of the noise model to experiment planning, identify phenomena limiting current Doppler sensitivity, and discuss the prospects for significant sensitivity improvements.

机译：我们将讨论深空探测器的多普勒跟踪中的噪声，并为多普勒无线电科学实验提供详细的噪声模型。最敏感的电流实验在1000s积分时间内达到了约3 x 10〜（-15）的分数频率波动噪声，相当于每秒优于1微米的速度噪声。我们的噪声模型主要集中在傅立叶范围≈10〜（-4）-1 Hz，但我们简要讨论了低频观测中的噪声。我们指出了噪声模型在实验计划中的应用，确定了限制电流多普勒灵敏度的现象，并讨论了显着提高灵敏度的前景。

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来源
《Radio Science》 |2005年第2期|p.RS2001.1-RS2001.9|共9页
作者
S. W. Asmar; J. W. Armstrong; L. Iess; P. Tortora;
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作者单位

Jet Propulsion Laboratory, California Institute of Technology, Pasadena, California, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
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专利

1. Spacecraft Doppler tracking: Noise budget and accuracy achievable in precision radio science observations [J] . S. W. Asmar, J. W. Armstrong, L. Iess, Radio Science . 2005,第2期

机译：航天器多普勒跟踪：精确的无线电科学观测可实现噪声预算和精度
2. Radio wave phase scintillation and precision Doppler tracking of spacecraft [J] . J. W. Armstrong Radio Science . 1998,第6期

机译：航天器的无线电波相位闪烁和精确多普勒跟踪
3. Reducing antenna mechanical noise in precision spacecraft tracking [J] . J. W. Armstrong, F. B. Estabrook, S. W. Asmar, Radio Science . 2008,第3期

机译：减少精密航天器跟踪中的天线机械噪声
4. Improvements in BepiColombo and JUICE radio science experiments with a multi-station tracking configuration for the reduction of Doppler noise [C] . A. Di Ruscio, P. Cappuccio, V. Notaro, IAF Space Communications and Navigation Symposium;International Astronautical Congress . 2020

机译：具有多站跟踪配置的Bepicolombo和果汁无线电科学实验的改进，用于减少多普勒噪声
5. Improving accuracy in ultra-wideband indoor position tracking through noise modeling and augmentation [D] . Banerjee, Salil P. 2012

机译：通过噪声建模和增强来提高超宽带室内位置跟踪的准确性
6. Image Annotation by Eye Tracking: Accuracy and Precision of Centerlines of Obstructed Small-Bowel Segments Placed Using Eye Trackers [O] . Alfredo Lucas, Kang Wang, Cynthia Santillan, 2019

机译：眼跟踪图像注释：使用眼跟踪器放置的阻塞小肠段中心线的准确性和精度
7. Spacecraft Doppler tracking: Noise budget and accuracy achievable in precision radio science observations [O] . ASMAR S.W, ARMSTRONG J.W, L. IESS, 2005

机译：航天器多普勒跟踪：精确的无线电科学观测可实现噪声预算和精度
8. Radiowave Phase Scintillation and Precision Doppler Tracking of Spacecraft [R] . Armstrong, J. W. 1997

机译：航天器的无线电波相位闪烁和精密多普勒跟踪

Spacecraft Doppler tracking: Noise budget and accuracy achievable in precision radio science observations

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