A noninvasive blood glucose detection method with strong time adaptability based on fuzzy operator decision fusion and dynamic spectroscopy characteristics of PPG signals.

IF 2.7 3区 化学 Q2 CHEMISTRY, ANALYTICAL Analytical Methods Pub Date : 2024-11-21 DOI:10.1039/d4ay01697a
Rui Liu, Jieqiang Liu, Zhengwei Huang, Qingbo Li
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Abstract

PPG signals are a new means of non-invasive detection of blood glucose, but there are still shortcomings of poor time adaptability and low prediction accuracy of blood glucose quantitative models. Few studies discuss prediction accuracy in the case of a large time interval span between modeling and prediction. This paper proposes an automatic optimal threshold baseline removal algorithm based on variational mode decomposition (AOT-VMD), which can adaptively eliminate high-frequency noise and baseline interference for each decomposed IMF modal component and reduce the baseline difference of PPG signals from different days. Furthermore, a fuzzy integral multi-model decision fusion algorithm based on error weight is proposed. The fuzzy integral operator is introduced to make the features with large contributions in each sub-model maintain a high-weight value in the overall prediction mechanism, which improves the prediction accuracy of blood glucose. In this paper, a self-developed portable PPG glucose meter is used to collect PPG signals, and the true blood glucose values for 8 consecutive days are collected by CGM. The proposed algorithm is used to build a model with the first day's data and predict the blood glucose values for the remaining 7 days. The experimental results show that the AOT-VMD preprocessing algorithm and the quantitative regression algorithm of the fuzzy integral multiple model decision fusion algorithm proposed in this paper perform well in measurement accuracy and time adaptability compared with the traditional methods. In addition, the proposed method requires less invasive calibration samples in the modeling stage, achieving high-precision prediction for a long period. 100% of the samples are located in areas A and B of the Clarke area in this experiment, and the algorithm has strong time generalization ability. This innovative method can promote the development of a home blood glucose noninvasive detector.

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基于模糊算子决策融合和 PPG 信号动态光谱特征的无创血糖检测方法,具有很强的时间适应性。
PPG 信号是一种新的无创血糖检测手段,但仍存在时间适应性差、血糖定量模型预测准确性低等缺点。很少有研究讨论建模和预测之间时间间隔跨度较大情况下的预测准确性。本文提出了一种基于变异模态分解(AOT-VMD)的自动优化阈值基线去除算法,该算法可自适应地消除各分解 IMF 模态分量的高频噪声和基线干扰,减小不同日期 PPG 信号的基线差。此外,还提出了一种基于误差权重的模糊积分多模态决策融合算法。引入模糊积分算子,使各子模型中贡献较大的特征在整体预测机制中保持较高的权重值,提高了血糖预测的准确性。本文采用自主研发的便携式 PPG 血糖仪采集 PPG 信号,并通过 CGM 采集连续 8 天的真实血糖值。本文提出的算法利用第一天的数据建立模型,并预测剩余 7 天的血糖值。实验结果表明,与传统方法相比,本文提出的 AOT-VMD 预处理算法和模糊积分多模型决策融合算法中的定量回归算法在测量精度和时间适应性方面表现良好。此外,本文提出的方法在建模阶段对标定样本的侵入性要求较低,可实现长时间的高精度预测。在本次实验中,100% 的样本都位于克拉克地区的 A 区和 B 区,算法具有很强的时间泛化能力。这一创新方法可促进家用无创血糖检测仪的发展。
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来源期刊
Analytical Methods
Analytical Methods CHEMISTRY, ANALYTICAL-FOOD SCIENCE & TECHNOLOGY
CiteScore
5.10
自引率
3.20%
发文量
569
审稿时长
1.8 months
期刊介绍: Early applied demonstrations of new analytical methods with clear societal impact
期刊最新文献
Back cover A new compact potentiometric electrode for pH monitoring built upon a glass substrate with a Ce-doped SnO2 layer. A noninvasive blood glucose detection method with strong time adaptability based on fuzzy operator decision fusion and dynamic spectroscopy characteristics of PPG signals. A simple SERS sensor based on antibody-modified Fe3O4@Au MNPs for the detection of CA19-9 in CRC patients. Advanced analytical methods for multi-spectral transmission imaging optimization: enhancing breast tissue heterogeneity detection and tumor screening with hybrid image processing and deep learning.
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