“一种尺寸不适合所有”:用于基于代理的模型敏感性分析的目的驱动混合方法路径的路线图

Arika Ligmann-Zielinska, Peer-Olaf Siebers, N. Magliocca, D. Parker, V. Grimm, Jing Du, M. Cenek, V. Radchuk, Nazia N. Arbab, Sheng Li, U. Berger, Rajiv Paudel, D. Robinson, P. Jankowski, Li An, X. Ye
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引用次数: 35

摘要

设计、实现和应用基于智能体的模型(ABMs)需要一种结构化的方法,其中一部分是以不确定性和敏感性分析(SA)的形式对输出到输入的可变性进行全面分析。本文的目的是帮助选择,对于给定的ABM,最合适的SA方法。我们认为,没有一种SA方法适合所有的abm,应该根据模型的总体目的使用不同的SA方法。例如,专注于对目标系统及其属性的更深层次理解的抽象探索性模型只使用表示模式或程式化事实的最关键数据。对他们来说,简单的SA方法可能足以捕获输出-输入空间之间的依赖关系。相比之下,在场景和策略分析中使用的应用模型通常更复杂,数据也更丰富,因为需要更高层次的现实性。在这里,在将模型(或其结果)传递给最终用户之前,选择更复杂的SA对于建立结果的健壮性可能至关重要。因此,我们提供了一个路线图,指导ABM开发人员执行最适合其ABM目的的SA的过程。该路线图涵盖了广泛的ABM应用,并倡导近年来出现的常规:a)处理时间和空间输出,b)使用结果的整个输出分布,而不是其方差,c)查看输入数据点之间的拓扑关系,而不是它们的值,d)查看ABM黑箱âĂŞ -找到行为原语并使用它们来研究复杂的系统特征,如状态转移,临界点,以及集体系统行为的凝结与消散。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
'One Size Does Not Fit All': A Roadmap of Purpose-Driven Mixed-Method Pathways for Sensitivity Analysis of Agent-Based Models
: Designing, implementing, and applying agent-based models (ABMs) requires a structured approach, part of which is a comprehensive analysis of the output to input variability in the form of uncertainty and sensitivity analysis (SA). The objective of this paper is to assist in choosing, for a given ABM, the most appropriate methods of SA. We argue that no single SA method fits all ABMs and that different methods of SA should be used based on the overarching purpose of the model. For example, abstract exploratory models that focus on deeper understanding of the target system and its properties are fed with only the most critical data representing patterns or stylized facts. For them, simple SA methods may be sufficient in capturing the dependencies between the output-input spaces. In contrast, applied models used in scenario and policy-analysis are usually more complex and data-rich because a higher level of realism is required. Here the choice of a more sophisticated SA may be critical in establishing the robustness of the results before the model (or its results) can be passed on to end-users. Accordingly, we present a roadmap that guides ABM developers through the process of performing SA that best fits the purpose of their ABM. This roadmap covers a wide range of ABM applications and advocates for the routine emerging in recent years: a) handling temporal and spatial outputs, b) using the whole output distribution of a result rather than its variance, c) looking at topological relationships between input data points rather than their values, and d) looking into the ABM black box âĂŞ– finding behavioral primitives and using them to study complex system characteristics like regime shifts, tipping points, and condensation versus dissipation of collective system behavior.
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