The pandemic COVID-19 disease has had a dramatic impact on almost all countries around the world so that many hospitals have been overwhelmed with Covid-19 cases. As medical resources are limited, deciding on the proper allocation of these resources is a very crucial issue. Besides, uncertainty is a major factor that can affect decisions, especially in medical fields. To cope with this issue, we use fuzzy logic (FL) as one of the most suitable methods in modeling systems with high uncertainty and complexity. We intend to make use of the advantages of FL in decisions on cases that need to treat in ICU. In this study, an interval type-2 fuzzy expert system is proposed for prediction of ICU admission in COVID-19 patients. For this prediction task, we also developed an adaptive neuro-fuzzy inference system (ANFIS). Finally, the results of these fuzzy systems are compared to some well-known classification methods such as Naive Bayes (NB), Case-Based Reasoning (CBR), Decision Tree (DT), and K Nearest Neighbor (KNN). The results show that the type-2 fuzzy expert system and ANFIS models perform competitively in terms of accuracy and F-measure compared to the other system modeling techniques.
翻译:COVID-19传染病对全世界几乎所有国家都产生了巨大影响,以致许多医院都因Covid-19病例而不堪重负。由于医疗资源有限,因此决定适当分配这些资源是一个非常关键的问题。此外,不确定性是影响决策的主要因素,特别是在医疗领域。为了解决这个问题,我们使用模糊逻辑(FL)作为建模系统最合适的方法之一,其不确定性和复杂性都很高。我们打算在就需要在ICU治疗的案件作出决定时利用FL的优势。在本研究中,建议采用2型间隔型模糊专家系统来预测COVID-19病人接受ICU的情况。关于这一预测任务,我们还开发了一个适应性神经模糊推断系统(ANFIS)。最后,这些模糊逻辑系统的结果与一些众所周知的分类方法进行了比较,如Nive Bayes(NB)、基于案例的理性(CBR)、决定树(DT)和K Nearest Neighbor(KNNNN)等。结果显示,F-2型模糊专家系统的模型和ANFIS的比较性模型系统和其他测试条件的精确性。
相关内容
微信扫码咨询专知VIP会员