基于dcc特征选择的可解释流感预测方案

IF 2.7 3区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Sungwoo Park , Jaeuk Moon , Seungwon Jung , Seungmin Rho , Eenjun Hwang
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引用次数: 0

摘要

由于流感很容易转化为另一种病毒,并在人与人之间迅速传播,因此更有可能发展成大流行。尽管疫苗是预防流感最有效的方法,但生产疫苗需要很长时间。因此,每年流感疫苗的供应和需求都不平衡。为了保证疫苗供应的顺利进行,至少要提前3 ~ 6个月准确预测疫苗需求。到目前为止,许多基于机器学习的预测模型都表现出了出色的性能。然而,由于不适当的训练数据和无法解释结果导致性能下降,它们的使用受到限制。为了解决这些问题,本文提出了一个可解释的流感预测模型。特别是,该模型根据距离相关系数选择高度相关的数据进行有效训练,并使用shapley加性解释解释预测结果。我们通过大量的实验来评估它的性能。我们报道一些结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Explainable influenza forecasting scheme using DCC-based feature selection

As influenza is easily converted to another type of virus and spreads very quickly from person to person, it is more likely to develop into a pandemic. Even though vaccines are the most effective way to prevent influenza, it takes a lot of time to produce them. Due to this, there has been an imbalance in the supply and demand of influenza vaccines every year. For a smooth vaccine supply, it is necessary to accurately forecast vaccine demand at least three to six months in advance. So far, many machine learning-based predictive models have shown excellent performance. However, their use was limited due to performance deterioration due to inappropriate training data and inability to explain the results. To solve these problems, in this paper, we propose an explainable influenza forecasting model. In particular, the model selects highly related data based on the distance correlation coefficient for effective training and explains the prediction results using shapley additive explanations. We evaluated its performance through extensive experiments. We report some of the results.

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来源期刊
Data & Knowledge Engineering
Data & Knowledge Engineering 工程技术-计算机:人工智能
CiteScore
5.00
自引率
0.00%
发文量
66
审稿时长
6 months
期刊介绍: Data & Knowledge Engineering (DKE) stimulates the exchange of ideas and interaction between these two related fields of interest. DKE reaches a world-wide audience of researchers, designers, managers and users. The major aim of the journal is to identify, investigate and analyze the underlying principles in the design and effective use of these systems.
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