Jarvis, AndrewLeedal, DavidTaylor, C JamesYoung, Peter C2015-12-101364-8152http://hdl.handle.net/1885/50984In this paper, we develop a discrete time, state variable feedback control regime to analyze the closed-loop properties associated with stabilizing the global mean surface temperature anomaly at 2 °C within a sequential decision making framework made upKeywords: Aerospace vehicles; Atmospheric temperature; Control systems; Control theory; Feedback; Feedback control; Robust control; Stabilization; State feedback; Surface properties; Climate dynamics; Climate modelling; Climate sensitivity; Control actions; Control Climate sensitivity; Eigenvalues; Feedback control; Stabilization; Surface temperature200910.1016/j.envsoft.2008.10.0162016-02-24