Potential Pitfalls in the Analysis and Structural Interpretation of Seismic Data from the Mars InSight Mission.

D Kim, P Davis, V Lekić, R Maguire, N Compaire, M Schimmel, E Stutzmann, J C E Irving, P Lognonné, J-R Scholz, J Clinton, G Zenhäusern, N Dahmen, S Deng, A Levander, M P Panning, R F Garcia, D Giardini, K Hurst, B Knapmeyer-Endrun, F Nimmo, W T Pike, L Pou, N Schmerr, S C Stähler, B Tauzin, R Widmer-Schnidrig, W B Banerdt
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引用次数: 30

Abstract

The Seismic Experiment for Interior Structure (SEIS) of the InSight mission to Mars, has been providing direct information on Martian interior structure and dynamics of that planet since it landed. Compared to seismic recordings on Earth, ground motion measurements acquired by SEIS on Mars are made under dramatically different ambient noise conditions, but include idiosyncratic signals that arise from coupling between different InSight sensors and spacecraft components. This work is to synthesize what is known about these signal types, illustrate how they can manifest in waveforms and noise correlations, and present pitfalls in structural interpretations based on standard seismic analysis methods. We show that glitches, a type of prominent transient signal, can produce artifacts in ambient noise correlations. Sustained signals that vary in frequency, such as lander modes which are affected by variations in temperature and wind conditions over the course of the Martian Sol, can also contaminate ambient noise results. Therefore, both types of signals have the potential to bias interpretation in terms of subsurface layering. We illustrate that signal processing in the presence of identified nonseismic signals must be informed by an understanding of the underlying physical processes in order for high fidelity waveforms of ground motion to be extracted. While the origins of most idiosyncratic signals are well understood, the 2.4 Hz resonance remains debated and the literature does not contain an explanation of its fine spectral structure. Even though the selection of idiosyncratic signal types discussed in this paper may not be exhaustive, we provide guidance on best practices for enhancing the robustness of structural interpretations.

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火星洞察号任务地震数据分析和结构解释中的潜在缺陷。
洞察号火星探测任务的内部结构地震实验(SEIS)自着陆以来一直提供火星内部结构和动力学的直接信息。与地球上的地震记录相比,SEIS在火星上获得的地面运动测量是在截然不同的环境噪声条件下进行的,但其中包括不同洞察号传感器和航天器组件之间耦合产生的特殊信号。这项工作是综合已知的这些信号类型,说明它们如何在波形和噪声相关性中表现出来,并提出基于标准地震分析方法的结构解释中的缺陷。我们表明,小故障是一种突出的瞬态信号,可以在环境噪声相关性中产生伪影。频率变化的持续信号,如着陆器模式,在火星太阳的过程中受到温度和风力条件变化的影响,也会污染环境噪声的结果。因此,这两种类型的信号都有可能对地下分层的解释产生偏差。我们说明,为了提取高保真的地面运动波形,在识别出非地震信号的情况下,必须通过理解潜在的物理过程来处理信号。虽然大多数特殊信号的起源已经被很好地理解,但2.4赫兹的共振仍然存在争议,文献中没有对其精细的频谱结构进行解释。尽管本文中讨论的特异信号类型的选择可能不是详尽的,但我们为增强结构解释的鲁棒性提供了最佳实践指导。
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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Scattering Attenuation of the Martian Interior through Coda Wave Analysis. Potential Pitfalls in the Analysis and Structural Interpretation of Seismic Data from the Mars InSight Mission.
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