TY - CHAP U1 - Konferenzveröffentlichung A1 - Jelinek, Thorsten A1 - Bhave, Amit A1 - Buchoud, Nicolas A1 - Bühler, Michael Max A1 - Glauner, Patrick A1 - Inderwildi, Oliver A1 - Kraft, Markus A1 - Mok, Charles A1 - Nübel, Konrad A1 - Pathak, Minal A1 - Some, Shreya A1 - Voss, Axel T1 - Advancing AI for Climate Action BT - Global Collaboration on Intelligent Decarbonisation T2 - Think20 2023, India, TF-4: Refuelling Growth: Clean Energy and Green Transitions - T20 Policy Brief N2 - Artificial Intelligence (AI) combined with cyber-physical systems (CPS) can play a vital role in eliminating greenhouse gas emissions across sectors. The transition from fossil fuels to renewables is achieved through electrification, introducing complexity in systems deployment, integration, and efficient orchestration of electrified economic systems. AI-driven CPS are uniquely suited to manage this complexity, potentially accelerating decarbonisation efforts. This Policy Brief advocates for the mainstreaming of AI-driven CPS for climate change risk mitigation. To effectively realise the Intelligent Decarbonation (IDC) potential, AI-driven CPS must be elevated to a global level of collaboration and coordination, fostering clear IDC principles and guidelines, capacity building and technology transfer. The importance of IDC governance is emphasised to avoid unwanted path dependency and to avert a technology-centric approach, which has proven to yield limited results. A shift from trustworthy to sustainable AI is necessary to eliminate AI’s own carbon footprint. Y1 - 2023 UR - https://policycommons.net/artifacts/4315404/advancing-ai-for-climate-action/5125001/ SP - 18 S1 - 18 PB - Observer Research Foundation CY - Neu Delhi, India ER -