Abstract
The morphological modeling methods are efficient in quantifying the change of arterial blood pressure (ABP) waves. The related works focus on minimizing the modeling error but ignore the classification related modeling expression in practical applications. In this study, we explored the optimal modeling method for ABP wave related classifications. Two types of conventional models, Gaussian or Lognormal kernel function mixtures, were employed to quantitively describe the change of ABP signals, and the parameters of different models were engaged to train the different classifiers by probabilistic neural network (PNN) and random forest (RF) for identifying the ABP waves by age, gender, and whether belonging to extreme bradycardia (EB) or extreme tachycardia (ET). Then, we defined some indexes about the performance of modeling and classifications as the references to compare the different models. The ABP signals of Fantasia and 2015 PhysioNet/CinC Challenge databases were exploited as the experimental data to select the optimal model. The modeling results show that the Lognormal kernel function mixtures have a lower error in ABP wave modeling. The two-sample Kolmogorov-Smirnov test (ks-test) results indicate that the parameters of all models are markedly different at a highly significant level (h = 1, p <; 0.05) between different groups. The classification results show that the classifiers based on the four-Gaussian function model have the best performance with the average Kappa coefficients (KC) of 99.160 ± 0.123%, while the average KC for the classifiers of two-Lognormal function models is 97.585 ± 0.172%, which means there is excessive information redundancy in the classifications by the three and four kernel functions models. Considering some other indexes such as time consumption and RAM space, the 2 Lognormal function model has more potential in practical applications.
Highlights
Arterial blood pressure (ABP) signal is one of the most important physiological signals and contains abundant information about the beat rhythm and hemodynamics of the cardiovascular system
4) THE OPTIMAL MODEL SELECTING The aim of this study is to find the optimal morphological modeling mixture for arterial blood pressure (ABP)-related classification, so it is important to employ some indexes as the standards to assess the performance of the ABP modeling method and the classifiers
Two kinds of most popular modeling methods with Gaussian or Lognormal kernel function mixtures are engaged to fit the measured ABP waves of different subjects who are from the Fantasia and 2015 PhysioNet/CinC Challenge databases
Summary
Arterial blood pressure (ABP) signal is one of the most important physiological signals and contains abundant information about the beat rhythm and hemodynamics of the cardiovascular system. It plays an important role in detecting some cardiovascular diseases, e.g., arteriosclerosis, heart failure, The associate editor coordinating the review of this manuscript and approving it for publication was Siddhartha Bhattacharyya. The blood circulates in the cardiovascular network under the diastolic and contractile forces from the heart It is reflected in the junctures of some arteries
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