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秘密直播 APL Supports Climate TRACE鈥檚 Expanded Database of Greenhouse Gas Emissions

Using a combination of machine learning, satellite imagery and localized emissions data, APL advances its accurate, scalable and easily configurable greenhouse gas monitoring framework for road transportation.

With support from researchers at the 秘密直播 Applied Physics Laboratory (APL) in Laurel, Maryland, published an expanded database that now tracks greenhouse gas (GHG) emissions from more than 352 million assets, up from 80,000 in 2022. Announced at the annual United Nations鈥 Climate Change Conference in December, this expanded inventory is unprecedented in granularity and pinpoints nearly every major source of GHG emissions around the world.

Derived from satellite data, public and commercial information, and sector-specific models, Climate TRACE provides data at extraordinary resolution. As part of the global coalition, APL leads efforts to monitor road transportation emissions.

鈥淐limate TRACE is unique in that we鈥檙e mapping emissions down to the asset level,鈥 said Marisa Hughes, the assistant program manager of Human and Machine Intelligence and APL鈥檚 climate intelligence lead. 鈥淲e want to know how much an individual power plant, or an acre of pastureland, or even transportation on a single road is emitting over time 鈥 and how that changes as technologies and policies are implemented and adapted. With that knowledge, we can take more informed climate action and invest in tools that have proven to be effective in lowering emissions.鈥

The Environmental Protection Agency the transportation sector accounts for the largest portion of GHG emissions in the United States, and 81% of those emissions stem from road transportation 鈥 including passenger cars, trucks and utility vehicles. For years, researchers have tried to measure road transportation emissions more closely, but existing inventories were often outdated, incomplete and limited.