期刊
ENVIRONMENTAL MODELLING & SOFTWARE
卷 112, 期 -, 页码 82-94出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.envsoft.2018.11.011
关键词
Deep uncertainty; Integrated assessment; Resilience; Stakeholders; Sustainability; Systemic
类别
资金
- Global Change Center
- Fralin Life Science Institute at Virginia Tech
- National Socio-Environmental Synthesis Center (SESYNC) at the University of Maryland
Many of the world's greatest challenges are complex socio-environmental problems, often framed in terms of integrated assessment, resilience or sustainability. To resolve any of these challenges, it is essential to elicit and integrate knowledge across a range of systems, informing the design of solutions that take into account the complex and uncertain nature of the individual systems and their interrelationships. To meet this scientific challenge, we propose a tiered, system-of-systems modeling framework with these elements: a component-based, software framework that couples a wide range of relevant systems using a modular, system-of-systems structure; a tiered structure with different levels of abstraction that spans bottom-up and top-down approaches; the ability to inform robust decisions in the face of deep uncertainty; and the systematic integration of multiple knowledge domains and disciplines. We illustrate the application of the framework, and identify research and education initiatives that are needed to facilitate its development and implementation.
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