全球气候变化多方法综合评估模型的创新方法

Peer-Olaf Siebers, Zhi En Lim, G. Figueredo, James Hey
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引用次数: 3

摘要

建模和模拟在探索性研究中发挥着越来越重要的作用,为决策者提供关于减缓气候变化战略的信息。在创建综合评估模型(iam)方面正在进行大量研究,其重点是检查人类对气候变化的影响。许多流行的iam都是作为稳态优化模型创建的。它们通常采用新古典生产函数的嵌套结构来表示能源经济系统,持有变量的聚合视图,因此无法捕获底层系统组件的更精细的细节。另一种允许将人口建模为个体和不均匀分布实体的集合的方法是基于agent的建模,也用于社会模拟领域。但是模拟大量的个体实体很快就会成为一个问题,因为它需要大量的计算资源。本文的目标是介绍一个开发混合iam的概念框架。这种新颖的建模方法允许我们重用现有的刚性但完善的iam,并通过用充满活力的相互作用的实体社区取代总库存增加了更多的灵活性。我们以一个说明性示例的形式提供了这个概念框架应用的概念证明。我们的测试用例采用美国的设置。它仅仅是为了展示我们的混合建模方法而创建的;我们并不声称它具有预测能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Innovative Approach to Multi-Method Integrated Assessment Modelling of Global Climate Change
Modelling and simulation play an increasingly significant role in exploratory studies for informing policy makers on climate change mitigation strategies. There is considerable research being done in creating Integrated Assessment Models (IAMs), which focus on examining the human impacts on climate change. Many popular IAMs are created as steady state optimisationmodels. They typically employ a nested structure of neoclassical production functions to represent the energy-economy system, holding aggregate views on variables, and hence are unable to capture a finer level of details of the underlying system components. An alternative approach that allows modelling populations as a collection of individual and unevenly distributed entities is Agent-Based Modelling, o en used in the field of Social Simulation. But simulating huge numbers of individual entities can quickly become an issue, as it requires large amounts of computational resources. The goal of this paper is to introduce a conceptual framework for developing hybrid IAMs. This novel modelling approach allows us to reuse existing rigid, but well-established IAMs, and adds more flexibility by replacing aggregate stockswith a community of vibrant interacting entities. We provide a proof-of-concept of the application of this conceptual framework in form of an illustrative example. Our test case takes the settings of the US. It is solely created for the purpose of demonstrating our hybridmodelling approach; we do not claim that it has predictive powers.
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