Dezord Clément, Micolau Gilles, Abbas Chahine, Mesgouez Arnaud, Borgo Elisabeth Pozzo Di
UMR 1114 EMMAH, AU - INRAE, 301 rue Baruch de Spinoza, BP 21239, 84911 Avignon cedex 9, France.
UAR 3538 Laboratoire Souterrain à Bas Bruit (CNRS), 84400 Rustrel, France.
HardwareX. 2023 Aug 12;15:e00463. doi: 10.1016/j.ohx.2023.e00463. eCollection 2023 Sep.
The instrumentation of a giant loop antenna dedicated to environmental measurement, on a unique scientific site and intended to be open to the scientific community is presented. An open-source, low-cost electronic system has been designed, developed, and deployed in order to meet the need for reliability and flexibility imposed respectively by the harsh environment and the scientific objectives. The system's architecture is based on the simultaneous association of five Arduino boards piloted together by a Raspberry Pi which also controls the measurement devices. The setup is therefore automated, pilotable, and remotely reprogrammable. Special attention was paid to its hardware and software reliability. These have been proven efficient over more than two years of operation. Several scientific conference publications have already proven the feasibility of the measurement principle (Dezord et al., 2021; Dezord et al., 2022; Dezord et al., 2022). This article gives previously unpublished details regarding the electronic setup.
本文介绍了一个用于环境测量的巨型环形天线的仪器设备,该天线位于一个独特的科学站点,并打算向科学界开放。为了满足恶劣环境和科学目标分别对可靠性和灵活性的要求,设计、开发并部署了一个开源、低成本的电子系统。该系统的架构基于五个由树莓派共同控制的Arduino板的同时关联,树莓派还控制测量设备。因此,该装置是自动化的、可操控的且可远程重新编程的。特别关注了其硬件和软件的可靠性。在两年多的运行中,这些已被证明是有效的。几篇科学会议出版物已经证明了测量原理的可行性(德佐德等人,2021年;德佐德等人,2022年;德佐德等人,2022年)。本文给出了有关电子装置的此前未发表的详细信息。
