残差电压估计电极模型参数在损伤检测中的应用。

Ashwati Krishnan, Shawn K Kelly
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引用次数: 2

摘要

目前的技术已经使电刺激电极的数量显著增加。对于大型电极阵列,在增产现场监测和检测故障变得越来越困难。在本文中,我们提出了一种想法,即来自双相电刺激脉冲的残余电压可以用于识别电极-组织界面的损伤。我们使用一种简单的开关电路方法来估计电极模型的松弛时间常数,该模型实质上是对双相电刺激中的残余电压进行建模,并将其与标准电极表征技术进行比较。在基于聚酰亚胺的siof阵列中的15个电极中,我们的方法突出了3个受损电极,与使用循环伏安法和电极阻抗谱的测量结果一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

On Using Residual Voltage to Estimate Electrode Model Parameters for Damage Detection.

On Using Residual Voltage to Estimate Electrode Model Parameters for Damage Detection.

On Using Residual Voltage to Estimate Electrode Model Parameters for Damage Detection.

Current technology has enabled a significant increase in the number of electrodes for electrical stimulation. For large arrays of electrodes, it becomes increasingly difficult to monitor and detect failures at the stimulation site. In this paper, we propose the idea that the residual voltage from a biphasic electrical stimulation pulse can serve to recognize damage at the electrode-tissue interface. We use a simple switch circuit approach to estimate the relaxation time constant of the electrode model, which essentially models the residual voltage in biphasic electrical stimulation, and compare it with standard electrode characterization techniques. Out of 15 electrodes in a polyimide-based SIROF array, our approach highlights 3 damaged electrodes, consistent with measurements made using cyclic voltammetry and electrode impedance spectroscopy.

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