Fast and accurate modeling and sensitivity analysis of an acquisition system for very low-g accelerations to be used in spacecraft testing and environmental noise measurements

2009 IEEE International Workshop on Robotic and Sensors Environments Pub Date : 2009-12-18 DOI:10.1109/ROSE.2009.5355987

S. Saponara, L. Ferrari, G. Casarosa, Patrick Hambloch, L. Fanucci, B. Sarti

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引用次数: 1

Abstract

The paper presents a low-g acceleration acquisition system, realized at the Test Centre Division, Europeans Space and Technology Centre of the European Space Agency. The system has been developed in the frame of an investigation on MEMS based sensors for the detection of very low g accelerations. A possible use of this type of technology is in the field of environmental noise measurement or in specific spacecraft testing where the effects of micro-vibrations induced by the activations of actuators need to be monitored. A Simulink-based approach is proposed for fast, accurate and reconfigurable modeling of the measuring system (sensor plus acquisition chain). The paper shows how such models are essentials to exactly predict the distortion and noise sources, to allow for fast set-up of the experiments, and to manage the signal conditioning process. The validity of the proposed technique is assessed by comparing the predicted results with tests on the real implemented system.

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用于航天器测试和环境噪声测量的极低加速度采集系统的快速准确建模和灵敏度分析

本文介绍了在欧洲航天局欧洲空间与技术中心测试中心分部实现的一种低加速度采集系统。该系统是在研究基于MEMS的传感器用于检测极低加速度的框架下开发的。这类技术的一个可能用途是在环境噪声测量领域或在特定的航天器测试中，在这些领域中，需要监测由激活致动器引起的微振动的影响。提出了一种基于simulink的测量系统(传感器+采集链)快速、准确和可重构建模方法。本文说明了这些模型是如何准确预测失真和噪声源，允许快速建立实验，并管理信号调理过程的关键。通过将预测结果与实际系统的测试结果进行比较，对所提技术的有效性进行了评价。

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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2009 IEEE International Workshop on Robotic and Sensors Environments

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