Precise Modeling of Non-Gravitational Accelerations of the Spacecraft BepiColombo During Cruise Phase

IF 1.3 4区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of Spacecraft and Rockets Pub Date : 2023-05-26 DOI:10.2514/1.a35704

I. di Stefano, P. Cappuccio, L. Iess

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引用次数: 0

Abstract

The ESA/JAXA (Japan Aerospace Exploration Agency) BepiColombo mission is currently in its cruise phase and is set to reach Mercury in late 2025. The spacecraft is equipped with advanced radio-tracking instrumentation that provides accurate radiometric data for precise orbit determination (POD). During the cruise phase, the radio link enables tests of general relativity (GR) and measurements of the solar corona properties. To fully exploit the accuracy of the radiometric measurements (Doppler and ranging) and to obtain better accuracies in the GR tests, a comprehensive dynamical model of the spacecraft is needed. A reliable and precise model of the non-gravitational accelerations would maximize the scientific return of the radio-science experiments and prevent unmodeled dynamic perturbations from degrading the POD solution. In this work, we investigate the effects of non-conservative forces acting on BepiColombo during three different radio-science campaigns conducted in November 2020, March 2021, and February 2022. The last two periods correspond to the first two GR tests of BepiColombo. We design a method for modeling these forces using telemetry measurements, radiometric observables, and mathematical models; and we analyze their characteristics in relation to the different environments encountered by the spacecraft during the three periods. This work is a preparatory and unavoidable step for the data analysis of the first two GR experiments of BepiColombo and the next radio-science campaigns, which will be performed in an even more challenging dynamical environment.

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贝皮可伦坡号航天器巡航阶段非重力加速度的精确建模

欧空局/日本宇宙航空研究开发机构的BepiColombo任务目前处于巡航阶段，计划于2025年底抵达水星。该航天器配备了先进的无线电跟踪仪器，为精确的轨道确定（POD）提供精确的辐射数据。在巡航阶段，无线电链路可以进行广义相对论（GR）测试和日冕特性测量。为了充分利用辐射测量（多普勒和测距）的精度，并在GR测试中获得更好的精度，需要一个全面的航天器动力学模型。非重力加速度的可靠和精确模型将最大限度地提高无线电科学实验的科学回报，并防止未建模的动态扰动降低POD解的质量。在这项工作中，我们调查了在2020年11月、2021年3月和2022年2月进行的三次不同的无线电科学运动中，非保守势力对BepiColombo的影响。最后两个周期对应于BepiColombo的前两次GR测试。我们设计了一种使用遥测测量、辐射可观察性和数学模型对这些力进行建模的方法；并分析了它们的特性与航天器在这三个时期遇到的不同环境的关系。这项工作是BepiColombo前两次GR实验和下一次无线电科学活动的数据分析的准备和不可避免的步骤，这些活动将在更具挑战性的动力学环境中进行。

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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来源期刊

Journal of Spacecraft and Rockets 工程技术-工程：宇航

CiteScore

3.60

自引率

18.80%

发文量

185

审稿时长

4.5 months

期刊介绍： This Journal, that started it all back in 1963, is devoted to the advancement of the science and technology of astronautics and aeronautics through the dissemination of original archival research papers disclosing new theoretical developments and/or experimental result. The topics include aeroacoustics, aerodynamics, combustion, fundamentals of propulsion, fluid mechanics and reacting flows, fundamental aspects of the aerospace environment, hydrodynamics, lasers and associated phenomena, plasmas, research instrumentation and facilities, structural mechanics and materials, optimization, and thermomechanics and thermochemistry. Papers also are sought which review in an intensive manner the results of recent research developments on any of the topics listed above.