Analysis of Vibratory Data Collected by the Space Acceleration Measurement System (SAMS) on Blue Origin, June 19, 2016

Gravitational and space research : publication of the American Society for Gravitational and Space Research Pub Date : 2017-12-01 DOI:10.2478/GSR-2017-0006

K. McPherson, Eric Kelly, Jennifer Keller, Ajeeth Ibrahim, E. Wagner, K. Hrovat

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引用次数: 2

Abstract

Abstract On Sunday, June 19, 2016, a Space Acceleration Measurement System triaxial sensor head flew on a suborbital flight aboard Blue Origin's New Shepard vehicle to collect precision vibratory accelerometry data. The Space Acceleration Measurement System (SAMS) sensor head was mounted inside of a Blue Origin single payload locker inside of the crew capsule. This paper describes the configuration, capture, and analysis of the SAMS data from this flight along with other, related flight log information provided by Blue Origin. Three overlapping periods during the flight were identified and characterized to provide future users of the platform with insight into options that may prove suitable for their research needs. Average accelerations in the Post-Separation Period were consistent with other low-g research platforms, while the shorter Microgravity Period in the middle of the flight showed ultra-quiet vibratory acceleration environments. Researchers can consider this microgravity quality versus time a tradeoff in their experimental designs.

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Blue Origin上空间加速度测量系统(SAMS)采集的振动数据分析，2016年6月19日

2016年6月19日星期日，一个空间加速度测量系统三轴传感器头在蓝色起源公司的新谢泼德飞行器上进行了一次亚轨道飞行，以收集精确的振动加速度测量数据。空间加速度测量系统(SAMS)传感器头安装在乘员舱内的蓝色起源单一有效载荷储物柜内。本文描述了这次飞行中SAMS数据的配置、捕获和分析，以及蓝色起源提供的其他相关飞行日志信息。确定并描述了飞行过程中的三个重叠阶段，以便为平台的未来用户提供可能适合其研究需求的选项。分离后阶段的平均加速度与其他低重力研究平台一致，而飞行中期较短的微重力阶段则呈现出超安静的振动加速度环境。研究人员可以在他们的实验设计中考虑这种微重力质量与时间的权衡。

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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Gravitational and space research : publication of the American Society for Gravitational and Space Research

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