A Methodology for Implementing a Digital Twin of the Earth’s Forests to Match the Requirements of Different User Groups

Q3 Social Sciences
M. Mõttus, M. Dees, H. Astola, S. Dałek, Eelis Halme, T. Häme, Monika Krzyżanowska, A. Mäkelä, G. Marin, F. Minunno, Gero Pawlowski, Juho Penttilä, J. Rasinmäki
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引用次数: 3

Abstract

Europe has acknowledged the need to develop a very high precision digital model of the Earth, a Digital Twin Earth, running on cloud infrastructure to bring data and end-users closer together. We present results of an investigation of a proposed submodel of the digital twin, simulating the worlds’ forests. We focus on the architecture of the system and the key user needs on data content and access. The results are based on a user survey showing that the forest-related communities in Europe require information on contrasting forest variables and processes, with common interest in the status and forecast of forest carbon stock. We discuss the required spatial resolution, accuracies, and modelling tools required to match the needs of the different communities in data availability and simulation of the forest ecosystem. This, together with the knowledge on existing and projected future capabilities, allows us to specify a data architecture to implement the proposed system regionally, with the outlook to expand to continental and global scales. Ultimately, a system simulating the behaviour of forests, a digital twin, would connect the bottom-up and top-down approaches of computing the forest carbon balance: from tree-based accounting of forest growth to atmospheric measurements, respectively.
实现地球森林数字孪生以满足不同用户群体需求的方法
欧洲已经认识到有必要开发一个非常高精度的地球数字模型,一个数字孪生地球,在云基础设施上运行,将数据和最终用户更紧密地联系在一起。我们提出了一个数字孪生子模型的调查结果,模拟世界的森林。重点介绍了系统的体系结构和关键用户对数据内容和访问的需求。结果是根据一项用户调查得出的,该调查显示欧洲与森林有关的社区需要关于对比森林变量和过程的资料,对森林碳储量的状况和预测有共同的兴趣。我们讨论了所需的空间分辨率、精度和建模工具,以满足不同群落在森林生态系统数据可用性和模拟方面的需求。这一点,连同对现有的和预计的未来能力的了解,允许我们指定一个数据架构来在区域内实现所提议的系统,并将前景扩展到大陆和全球范围。最终,一个模拟森林行为的系统,一个数字双胞胎,将连接自下而上和自上而下计算森林碳平衡的方法:分别从基于树木的森林生长核算到大气测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
GI_Forum
GI_Forum Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
1.10
自引率
0.00%
发文量
9
审稿时长
23 weeks
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