前所未有的气候变化背景下自然与人类社会相互作用问题的控制论方法

Q3 Mathematics
S. Soldatenko, R. Yusupov, R. Colman
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引用次数: 1

摘要

本文从控制论的角度考虑了人类活动引起的规模和速度空前的现代气候变化背景下的人与自然相互作用。提出了“气候-经济”控制论系统的发达结构,分析了全球治理机构的弱点,并讨论了评估气候变化不确定性的主要原因以及这种变化造成的经济损失。需要指出的是,各国政府和政府间组织制定和实施的适应措施和战略并不能消除全球变暖的原因,因此能力有限,因为人类和自然只能在特定的环境条件下生存。超出这些条件,由于气候变化,可能导致全球生物灾难。由于对未来气候估计的模糊性,气候政策决策是在不确定的情况下做出的,而这种不确定性又是气候系统模式中对反馈描述不充分的结果。利用地球气候系统的低参数模式,说明了系统反馈对使用高度复杂的现代气候模式获得的气候变化估计的有形模式间差异的影响。既然专家们提出的气候变化适应措施不是与原因作斗争,而是与后果作斗争,我们将地球工程视为一种激进的适应策略。与以往的研究不同,我们在最优控制理论的框架内考虑了通过地球工程方法有目的地改变气候条件的问题,并将地球工程目标和实现它们的方法进行了数学形式化。本文给出了通过向平流层注入细分散的硫酸盐气溶胶来稳定地球气候的优化问题的公式和求解实例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cybernetic Approach to Problem of Interaction Between Nature and Human Sosiety in Context of Unprecedented Climate Change
In this paper, from a cybernetic perspective, the human-nature interactions are considered in the context of modern climate change, unprecedented in its scale and rate caused by anthropogenic activity. The developed structure of the “climate-economy” cybernetic system is presented, the weaknesses of the global governance bodies are analysed, and the main causes of the uncertainties in assessing climate change and the economic damage caused by this change are discussed. It is noted that adaptation measures and strategies developed and implemented by governments of different countries and intergovernmental organizations do not eliminate the causes of global warming and, therefore, have limited capacities, since humans and nature can exist only under specified environmental conditions. Going beyond these conditions, due to climate change, can lead to a global biological catastrophe. Climate policy decisions are made under uncertainty due to the ambiguity of estimates of the future climate, which, in turn, is the result of an insufficiently adequate description of feedbacks in the climate system models. Using low-parametric models of the Earth's climate system, the influence of system’s feedbacks on tangible inter-model differences of climate change estimates obtained using modern climate models of a high degree of complexity is illustrated. Since the climate change adaptation measures proposed by experts are not the struggle with causes, but the fight with consequences, we see geoengineering as a radical adaptation strategy. In contrast to previous studies, we consider the problem of purposefully modifying climatic conditions, implemented by geoengineering methods, within the framework of optimal control theory with mathematical formalization of geoengineering objectives and methods for achieving them. In this paper, an example of the formulation and solution of the optimization problem for stabilizing the Earth’s climate through the injection of finely dispersed sulfate aerosol into the stratosphere is presented.
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来源期刊
SPIIRAS Proceedings
SPIIRAS Proceedings Mathematics-Applied Mathematics
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
14 weeks
期刊介绍: The SPIIRAS Proceedings journal publishes scientific, scientific-educational, scientific-popular papers relating to computer science, automation, applied mathematics, interdisciplinary research, as well as information technology, the theoretical foundations of computer science (such as mathematical and related to other scientific disciplines), information security and information protection, decision making and artificial intelligence, mathematical modeling, informatization.
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