Department of Infectious Disease Epidemiology, London School of Hygiene & Tropical Medicine, London, United Kingdom.
Centre for the Mathematical Modelling of Infectious Diseases, London, United Kingdom.
PLoS Comput Biol. 2023 Aug 29;19(8):e1011393. doi: 10.1371/journal.pcbi.1011393. eCollection 2023 Aug.
Forecast evaluation is essential for the development of predictive epidemic models and can inform their use for public health decision-making. Common scores to evaluate epidemiological forecasts are the Continuous Ranked Probability Score (CRPS) and the Weighted Interval Score (WIS), which can be seen as measures of the absolute distance between the forecast distribution and the observation. However, applying these scores directly to predicted and observed incidence counts may not be the most appropriate due to the exponential nature of epidemic processes and the varying magnitudes of observed values across space and time. In this paper, we argue that transforming counts before applying scores such as the CRPS or WIS can effectively mitigate these difficulties and yield epidemiologically meaningful and easily interpretable results. Using the CRPS on log-transformed values as an example, we list three attractive properties: Firstly, it can be interpreted as a probabilistic version of a relative error. Secondly, it reflects how well models predicted the time-varying epidemic growth rate. And lastly, using arguments on variance-stabilizing transformations, it can be shown that under the assumption of a quadratic mean-variance relationship, the logarithmic transformation leads to expected CRPS values which are independent of the order of magnitude of the predicted quantity. Applying a transformation of log(x + 1) to data and forecasts from the European COVID-19 Forecast Hub, we find that it changes model rankings regardless of stratification by forecast date, location or target types. Situations in which models missed the beginning of upward swings are more strongly emphasised while failing to predict a downturn following a peak is less severely penalised when scoring transformed forecasts as opposed to untransformed ones. We conclude that appropriate transformations, of which the natural logarithm is only one particularly attractive option, should be considered when assessing the performance of different models in the context of infectious disease incidence.
预测评估对于预测性流行模型的开发至关重要,并可为公共卫生决策提供参考。评估预测的常用评分标准是连续等级概率评分(CRPS)和加权区间评分(WIS),这两个评分标准可视为预测分布与观测值之间的绝对距离的度量。然而,由于传染病过程的指数性质以及观测值在空间和时间上的大小变化,直接将这些评分标准应用于预测和观测到的发病率计数可能并不最合适。在本文中,我们认为在应用 CRPS 或 WIS 等评分标准之前,对计数进行转换可以有效地缓解这些困难,并产生具有流行病学意义且易于解释的结果。我们以对数变换值上的 CRPS 为例,列出了三个吸引人的特性:首先,它可以被解释为相对误差的概率版本。其次,它反映了模型预测时变传染病增长率的能力。最后,根据方差稳定变换的论点,可以证明在二次均值-方差关系的假设下,对数变换导致的预期 CRPS 值与预测数量的数量级无关。我们对来自欧洲 COVID-19 预测中心的数据和预测进行了对数变换(log(x+1)),发现无论按预测日期、地点或目标类型分层,它都会改变模型的排名。与对未变换的预测进行评分相比,在对变换后的预测进行评分时,模型错过上升趋势开始的情况会被更强烈地强调,而未能预测到峰值后下降的情况则会受到较轻的惩罚。我们得出的结论是,在评估不同模型在传染病发病率背景下的性能时,应考虑适当的转换,其中自然对数仅是一个特别有吸引力的选择。
