基于仿生的地质现象分析力估计传感器系统试验台

计算机工程与设计 Pub Date : 2022-09-23 DOI:10.1109/SEEDA-CECNSM57760.2022.9932999

K. Kalovrektis, Apostolos Xenakis, Efthymios Mantalovas, G. Stamoulis, Sarantos Psycharis, N. Evelpidou

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引用次数: 0

摘要

我们的工作重点是设计和提出一个基于仿生的地质现象数据收集和分析的力估计传感器系统。在这个意义上，仿生学术语，被用来研究自然的方法，过程和机制，正如Schmitt在其经典意义上提出的那样。特别是，带有力感电阻(FSR)的应变计传感器，形成一个集群来估计地应力和张力水平，正如蚯蚓检测电信号的自然机制所述。我们的传感器系统被提出作为评估地质滑坡现象的试验台。数据采集系统的实验结果是在LabVIEW中进行的。

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A Force Estimation Sensor System TestBed for Geological Phenomena Analysis based on Biomimetic

Our work focuses, on designing and proposing a force estimation sensor system for Geological phenomena data collection and analysis, based on Biomimetic. In this sense, biomimetic term, is used, as proposed by Schmitt in its classical sense, with regatd to the study of nature’s methods, processes and mechanisms. In particular, strain gauge sensors with force sensing resistor (FSR), formate a clustering to estimate ground stress and tension levels, as stated by natures’ mechanisms in earthworms to detect electrical signals. Our sensor system is proposed as a testbed to estimate geological landslide phenomena. Our experimental results from the data collection system is conducted in LabVIEW.

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计算机工程与设计

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20353

期刊介绍： Computer Engineering and Design is supervised by China Aerospace Science and Industry Corporation and sponsored by the 706th Institute of the Second Academy of China Aerospace Science and Industry Corporation. It was founded in 1980. The purpose of the journal is to disseminate new technologies and promote academic exchanges. Since its inception, it has adhered to the principle of combining depth and breadth, theory and application, and focused on reporting cutting-edge and hot computer technologies. The journal accepts academic papers with innovative and independent academic insights, including papers on fund projects, award-winning research papers, outstanding papers at academic conferences, doctoral and master's theses, etc.

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