Electrical Modelling of In-Vivo Impedance Spectroscopy of Nicotiana tabacum Plants

IF 1.9 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Lee Bar-on, U. Garlando, M. Sophocleous, Aakash Jog, Paolo Motto Ros, Nir Sade, A. Avni, Y. Shacham-Diamand, D. Demarchi
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引用次数: 5

Abstract

Electrical impedance spectroscopy has been suggested as a sensing method for plants. Here, a theoretical approach for electrical conduction via the plant stem is presented and validated, linking its living electrical characteristics to its internal structure. An electrical model for the alternating current conduction and the associated impedance in a live plant stem is presented. The model accounts for biological and geometrical attributes. It uses the electrically prevalent coupled transmission line model approach for a simplified description of the complicated vessel structure. It considers the electrode coupling to the plant stem (either Galvanic or Faradic), and accounts for the different interactions of the setup. Then the model is simplified using the lumped element approach. The model is then validated using a four-point probe impedance spectroscopy method, where the probes are galvanically coupled to the stem of Nicotiana tabacum plants. The electrical impedance data was collected continuously and the results exhibit an excellent fitting to the theoretical model, with a fitting error of less than 1.5% for data collected on various days and plants. A parametric evaluation of the fitting corresponds to the proposed physically based model, therefore providing a baseline for future plant sensor design.
烟草植物体内阻抗谱的电建模
电阻抗谱已被认为是植物的一种传感方法。本文提出并验证了一种通过植物茎传导的理论方法,将其带电特性与其内部结构联系起来。提出了植物茎中交流电传导和相关阻抗的电学模型。该模型考虑了生物和几何属性。它采用电流行耦合传输线模型的方法来简化描述复杂的容器结构。它考虑了电极与植物茎的耦合(无论是Galvanic还是Faradic),并考虑了设置的不同相互作用。然后采用集总元法对模型进行简化。然后使用四点探针阻抗谱方法验证该模型,其中探针与烟草植物的茎电偶联。连续采集电阻抗数据,结果与理论模型拟合良好,对不同天数、不同植株的数据拟合误差小于1.5%。拟合的参数评估与提出的基于物理的模型相对应,因此为未来的植物传感器设计提供了基线。
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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