Robust Control in Global Warming Management: An Analytical Dynamic Integrated Assessment
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Date
2009-04-17T06:18:32Z
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Abstract
Knightian uncertainty in climate sensitivity is analyzed in a two sec-
toral integrated assessment model (IAM), based on an extension of
DICE. A representative household that expresses ambiguity aversion
uses robust control to identify robust climate policy feedback rules that
work well over IPCC climate-sensitivity uncertainty range [1]. Ambi-
guity aversion, together with linear damage, increases carbon cost in a
similar way as a low pure rate of time preference. Secondly, in combi-
nation with non-linear damage it makes policy responsive to changes in
climate data observations as it makes the household concerned about
misreading sudden increases in carbon concentration rate and temper-
ature as sources to global warming. Perfect ambiguity aversion results
in an infinite expected shadow carbon cost and a zero carbon-intensive
consumption path. Dynamic programming identifies an analytically
tractable solution to the model.
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Keywords
robust control, climate change policy, carbon cost, Knightian uncertainty, ambiguity aversion, integrated assessment models