从幅度响应测量中提取双色散科尔生物阻抗模型的参数。

Extracting the parameters of the double-dispersion Cole bioimpedance model from magnitude response measurements.

作者信息

Freeborn Todd J, Maundy Brent, Elwakil Ahmed S

机构信息

Department of Electrical and Computer Engineering, University of Calgary, 2500 University Dr. N.W., Calgary, Canada,

出版信息

Med Biol Eng Comput. 2014 Sep;52(9):749-58. doi: 10.1007/s11517-014-1175-5. Epub 2014 Jul 15.

DOI:10.1007/s11517-014-1175-5

PMID:25023892

Abstract

In the field of bioimpedance measurements, the Cole impedance model is widely used for characterizing biological tissues and biochemical materials. In this work, a nonlinear least squares fitting is applied to extract the double-dispersion Cole impedance parameters from simulated magnitude response datasets without requiring the direct impedance data or phase information. The technique is applied to extract the impedance parameters from MATLAB simulated noisy magnitude datasets showing less than 1.2 % relative error when 60 dB SNR Gaussian white noise is present. This extraction is verified experimentally using apples as the Cole impedances showing less than 3 % relative error between simulated responses (using the extracted impedance parameters) and the experimental results over the entire dataset.

摘要

在生物阻抗测量领域，科尔阻抗模型被广泛用于表征生物组织和生化材料。在这项工作中，应用非线性最小二乘法拟合从模拟幅度响应数据集中提取双色散科尔阻抗参数，而无需直接阻抗数据或相位信息。该技术用于从MATLAB模拟的带噪声幅度数据集中提取阻抗参数，当存在60 dB信噪比的高斯白噪声时，相对误差小于1.2%。使用苹果作为科尔阻抗进行实验验证了这种提取方法，在整个数据集中，模拟响应（使用提取的阻抗参数）与实验结果之间的相对误差小于3%。

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从幅度响应测量中提取双色散科尔生物阻抗模型的参数。

Extracting the parameters of the double-dispersion Cole bioimpedance model from magnitude response measurements.

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