Seismic soil liquefaction is one of the considerable challenges and disastrous sides of earthquakes that can generally happen in loose to medium saturated sandy soils. The in-situ cone penetration test (CPT) is a widely used index for evaluating the liquefaction characteristics of soils from different sites all over the world. To deal with the uncertainties of the models and the parameters on evaluating the liquefaction, a mathematical probabilistic model is applied via logistic regression, and the comprehensive CPT results are used to develop a model to predict the probability of liquefaction (PL). The new equation to assess the liquefaction occurrence is based on two important features from the expanded CPT dataset. The maximum likelihood estimation (MLE) method is applied to compute the model parameters by maximizing a likelihood function. In addition to that, the sampling bias is applied in the likelihood function via using the weighting factors. Five curve classifiers are plotted for different PL values and ranked using two evaluation metrics. Then, based on these metrics the optimal curve is selected and compared to a well-known deterministic model to validate it. This study also highlights the importance of the recall evaluation metric in the liquefaction occurrence evaluation. The experiment results indicate that the proposed method is outperform existing methods and presents the state-of-the-art in terms of probabilistic models.
Keywords: Probability of liquefaction; logistic regression; classification; maximum likelihood estimation; cone penetration test
土壤地震液化被视为地震带来的重大自然灾害,通常发生在松散或中等饱和砂土中,是防震减灾的巨大挑战。现场静力触探试验(CPT)是一种广泛应用的评价指标,用于世界各地不同场地的土壤液化特性评估。为了解决液化评估模型及其参数不确定性的问题,本研究结合逻辑回归和综合CPT结果,建立了液化概率(PL)预测模型。基于扩展CPT数据集的两大重要特征,提出了评估液化发生的概率函数。模型参数可通过最大似然估计(MLE)的最大化似然函数计算得到。此外,本研究通过使用加权因子在似然函数中应用抽样偏差,针对不同的PL值绘制五个曲线分类器,并使用两个评价指标进行排序。根据评价指标,选择最佳曲线,并与已知的确定性模型进行比较,验证了该概率模型的有效性。本研究还强调召回率在液化发生评估中的重要性。实验结果表明,本文中提出的方法优于现有的概率模型。
关键词:液化概率;逻辑回归;分类;最大似然估计;静力触探试验