Building insights on true positives vs. false positives: Bayes’ rule

IF 0.8 Q3 EDUCATION & EDUCATIONAL RESEARCH Decision Sciences-Journal of Innovative Education Pub Date : 2022-06-15 DOI:10.1111/dsji.12265
Alexander Robinson, L. Robin Keller, Cristina del Campo
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Abstract

COVID-19 pandemic policies requiring disease testing provide a rich context to build insights on true positives versus false positives. Our main contribution to the pedagogy of data analytics and statistics is to propose a method for teaching updating of probabilities using Bayes’ rule reasoning to build understanding that true positives and false positives depend on the prior probability. Our instructional approach has three parts. First, we show how to construct and interpret raw frequency data tables, instead of using probabilities. Second, we use dynamic visual displays to develop insights and help overcome calculation avoidance or errors. Third, we look at graphs of positive predictive values and negative predictive values for different priors. The learning activities we use include lectures, in-class discussions and exercises, breakout group problem solving sessions, and homework. Our research offers teaching methods to help students understand that the veracity of test results depends on the prior probability as well as helps students develop fundamental skills in understanding probabilistic uncertainty alongside higher-level analytical and evaluative skills. Beyond learning to update the probability of having the disease given a positive test result, our material covers naïve estimates of the positive predictive value, the common mistake of ignoring the disease's base rate, debating the relative harm from a false positive versus a false negative, and creating a new disease test.

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建立对真阳性和假阳性的洞察:贝叶斯规则
需要进行疾病检测的COVID-19大流行政策提供了丰富的背景,可以深入了解真阳性与假阳性。我们对数据分析和统计学教学的主要贡献是提出了一种使用贝叶斯规则推理来更新概率的教学方法,以建立对真阳性和假阳性取决于先验概率的理解。我们的教学方法有三个部分。首先,我们展示了如何构建和解释原始频率数据表,而不是使用概率。其次,我们使用动态视觉显示来开发见解并帮助克服计算回避或错误。第三,我们查看不同先验的正预测值和负预测值的图表。我们使用的学习活动包括讲座、课堂讨论和练习、分组问题解决会议和家庭作业。我们的研究提供了教学方法,帮助学生理解测试结果的准确性取决于先验概率,并帮助学生培养理解概率不确定性的基本技能以及更高水平的分析和评估技能。除了学习更新给定阳性检测结果的疾病概率之外,我们的材料还包括naïve对阳性预测值的估计,忽略疾病基本率的常见错误,讨论假阳性与假阴性的相对危害,以及创建新的疾病检测。
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来源期刊
Decision Sciences-Journal of Innovative Education
Decision Sciences-Journal of Innovative Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
3.60
自引率
36.80%
发文量
25
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Issue Information Learning from the pandemic Training, comfort, and perceived effectiveness: Lessons from the pandemic Game changer: Cloud-based classroom interactions powered by Google Sheets Changes to business faculty perceived skills with online teaching tools and educational practices: The pandemic effect
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