Defining model complexity: An ecological perspective

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Charlotte A. Malmborg, Alyssa M. Willson, L. M. Bradley, Meghan A. Beatty, David H. Klinges, Gerbrand Koren, Abigail S. L. Lewis, Kayode Oshinubi, Whitney M. Woelmer
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引用次数: 0

Abstract

Models have become a key component of scientific hypothesis testing and climate and sustainability planning, as enabled by increased data availability and computing power. As a result, understanding how the perceived ‘complexity’ of a model corresponds to its accuracy and predictive power has become a prevalent research topic. However, a wide variety of definitions of model complexity have been proposed and used, leading to an imprecise understanding of what model complexity is and its consequences across research studies, study systems, and disciplines. Here, we propose a more explicit definition of model complexity, incorporating four facets—model class, model inputs, model parameters, and computational complexity—which are modulated by the complexity of the real-world process being modelled. We illustrate these facets with several examples drawn from ecological literature. Overall, we argue that precise terminology and metrics of model complexity (e.g., number of parameters, number of inputs) may be necessary to characterize the emergent outcomes of complexity, including model comparison, model performance, model transferability and decision support.

Abstract Image

定义模型的复杂性:生态学视角
由于数据可用性和计算能力的提高,模型已成为科学假设检验以及气候和可持续发展规划的关键组成部分。因此,了解模型的 "复杂性 "如何与其准确性和预测能力相对应,已成为一个普遍的研究课题。然而,目前已提出和使用的模型复杂性定义种类繁多,导致人们对模型复杂性及其在不同研究、研究系统和学科中的影响的理解不够精确。在此,我们提出了一个更明确的模型复杂性定义,其中包含四个方面--模型类别、模型输入、模型参数和计算复杂性--这些方面受到所模拟的真实世界过程复杂性的影响。我们用生态学文献中的几个例子来说明这些方面。总之,我们认为,模型复杂性的精确术语和度量(如参数数量、输入数量)对于描述复杂性的新兴结果(包括模型比较、模型性能、模型可转移性和决策支持)可能是必要的。
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来源期刊
Meteorological Applications
Meteorological Applications 地学-气象与大气科学
CiteScore
5.70
自引率
3.70%
发文量
62
审稿时长
>12 weeks
期刊介绍: The aim of Meteorological Applications is to serve the needs of applied meteorologists, forecasters and users of meteorological services by publishing papers on all aspects of meteorological science, including: applications of meteorological, climatological, analytical and forecasting data, and their socio-economic benefits; forecasting, warning and service delivery techniques and methods; weather hazards, their analysis and prediction; performance, verification and value of numerical models and forecasting services; practical applications of ocean and climate models; education and training.
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