Anna Vaughan, Gonzalo Mateo-Garcia, Itziar Irakulis-Loitxate, Marc Watine, Pablo Fernandez-Poblaciones, Richard E. Turner, James Requeima, Javier Gorroño, Cynthia Randles, Manfredi Caltagirone, Claudio Cifarelli
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AI for operational methane emitter monitoring from space
Mitigating methane emissions is the fastest way to stop global warming in the
short-term and buy humanity time to decarbonise. Despite the demonstrated
ability of remote sensing instruments to detect methane plumes, no system has
been available to routinely monitor and act on these events. We present
MARS-S2L, an automated AI-driven methane emitter monitoring system for
Sentinel-2 and Landsat satellite imagery deployed operationally at the United
Nations Environment Programme's International Methane Emissions Observatory. We
compile a global dataset of thousands of super-emission events for training and
evaluation, demonstrating that MARS-S2L can skillfully monitor emissions in a
diverse range of regions globally, providing a 216% improvement in mean average
precision over a current state-of-the-art detection method. Running this system
operationally for six months has yielded 457 near-real-time detections in 22
different countries of which 62 have already been used to provide formal
notifications to governments and stakeholders.
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