Characterization of a non linear fractional model of electrode-tissue impedance for neuronal stimulation

机译：神经元刺激的电极组织阻抗的非线性分数模型的表征

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The design of neuro-stimulators must include a realistic model of electrode-tissue interface. Complex electrochemical phenomena associated to high levels of stimulation current give fractional and non linear behavior to this interface that simple linearized models fail to fit. This paper describes both a measurement protocol based on biphasic current-controlled solicitations and a modeling procedure relying on an original approach of multi-model, taking into account the non-linear and fractional effects. This model fits correctly the measurement results with current levels varying from 50µA to 1mA. Furthermore the whole characterization protocol can be safely transposed to in vivo measurements.

机译：神经刺激器的设计必须包括真实的电极-组织界面模型。与高水平刺激电流相关的复杂电化学现象使该界面具有分数和非线性行为，而简单的线性化模型无法拟合。本文介绍了一种基于双相电流控制的吸引的测量协议以及一种基于原始多模型方法的建模过程，同时考虑了非线性和分数效应。该模型在50µA至1mA的电流范围内正确地适合测量结果。此外，整个表征方案可以安全地转移到体内测量中。

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《IEEE Biomedical Circuits and Systems Conference》|2013年|338-341|共4页
会议地点 Rotterdam(NL)
作者
Kolbl F.; Sabatier J.; NKaoua G.; Naudet F.;
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IMS UMR 5218 CNRS - University of Bordeaux 351 Cours de la Libé;

ration 33405 TALENCE - FRANCEc;

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Characterization of a non linear fractional model of electrode-tissue impedance for neuronal stimulation

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