Experimental study on the use of the ARM Cortex M7 processor for measuring far-field blast waves

IF 1.7 4区工程技术 Q3 MECHANICS

Shock Waves Pub Date : 2024-03-27 DOI:10.1007/s00193-023-01154-1

M. du Plessis, N. Mahomed, R. Heise

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Abstract

The ongoing study of blast waves and blast wave mitigation continues to play an essential role in protecting structures and personnel. The methodology, however, for capturing far-field blast waves in large-scale tests has remained largely unchanged for three decades, relying on large arrays of pressure transducers connected by hundreds of meters of cabling and requiring a considerable amount of time to set up. This paper evaluates the use of a modern low-cost microprocessor with high computational power to capture blast waves with sufficient fidelity to provide scientists and engineers with credible data. The system utilizes an ARM Cortex M7 processor as an experimental data acquisition (DAQ) system for measuring far-field blast waves in an open-air blast arena at sampling speeds of up to 1.8 Msps (megasamples per second). The experimental system’s performance was evaluated by comparing it to a traditional commercial system used for measuring blast waves. The comparison showed an average Spearman correlation coefficient r of 0.928 between the two systems, suggesting a low variance between the commercial and experimental DAQ systems. This suggests that, despite its simplicity, the experimental system is an effective and low-cost alternative for accurately measuring blast waves.

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使用 ARM Cortex M7 处理器测量远场爆炸波的实验研究

对冲击波和冲击波缓解的持续研究在保护结构和人员方面继续发挥着至关重要的作用。然而，在大规模试验中捕捉远场爆炸波的方法三十年来基本未变，一直依赖于由数百米长的电缆连接的大型压力传感器阵列，并且需要大量时间进行设置。本文评估了如何使用具有高计算能力的现代低成本微处理器来捕捉足够逼真的爆炸波，从而为科学家和工程师提供可靠的数据。该系统利用 ARM Cortex M7 处理器作为实验数据采集（DAQ）系统，以高达 1.8 Msps（百万采样/秒）的采样速度测量露天爆破场中的远场爆破波。通过与用于测量爆炸波的传统商业系统进行比较，对实验系统的性能进行了评估。比较结果显示，两个系统之间的平均斯皮尔曼相关系数 r 为 0.928，表明商用和实验 DAQ 系统之间的差异很小。这表明，尽管实验系统很简单，但它是精确测量爆炸波的一种有效且低成本的替代方法。

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来源期刊

Shock Waves 物理-力学

CiteScore

4.10

自引率

9.10%

发文量

审稿时长

17.4 months

期刊介绍： Shock Waves provides a forum for presenting and discussing new results in all fields where shock and detonation phenomena play a role. The journal addresses physicists, engineers and applied mathematicians working on theoretical, experimental or numerical issues, including diagnostics and flow visualization. The research fields considered include, but are not limited to, aero- and gas dynamics, acoustics, physical chemistry, condensed matter and plasmas, with applications encompassing materials sciences, space sciences, geosciences, life sciences and medicine. Of particular interest are contributions which provide insights into fundamental aspects of the techniques that are relevant to more than one specific research community. The journal publishes scholarly research papers, invited review articles and short notes, as well as comments on papers already published in this journal. Occasionally concise meeting reports of interest to the Shock Waves community are published.