用于高分辨率、连续和无人工记录水果生长的低成本传感器节点的实现和校准

Lorenzo Mistral Peppi, Matteo Zauli, L. Manfrini, L. C. Grappadelli, L. Marchi, P. Traverso
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引用次数: 1

摘要

本文描述了一种用于田间非侵入性水果生长测量的低成本传感器节点原型,特别强调了在环境条件变化时获得稳定性显著改善所需的校准程序,从而优化了性能。尽管使用了低成本的组件,但原型机可以在夜间/白天和灌溉/化学循环期间连续监测水果大小的变化,有效分辨率低于1毫米。全尺寸实现了12厘米,克服了在成熟季节重新安置传感器的需要,而不是典型的高分辨率替代解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implementation and Calibration of a Low-Cost Sensor Node for High-Resolution, Continuous and No-Manning Recording of Fruit Growth
This paper describes a low-cost sensor node prototype for in-field, non-invasive fruit growth measurement, with particular emphasis on the calibration procedures required to obtain a significant improvement in stability when environmental conditions change and, thus, optimized performance. Despite the low-cost components used, the prototype allows to continuously monitor the variations in fruit size during night/day and irrigation/chemical cycles with an effective resolution lower than one millimeter. The full-scale implemented achieves 12 cm, overcoming the need of relocating the sensor during the ripening season, as instead typical of high resolution alternative solutions.
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