Compressed Sensing for Climate: A Novel Approach to Localize, Quantify and Characterize Urban Greenhouse Gas Emitters

ERC (European Research Council)HORIZON-ERCID: 101089203
EC Contribution
€19,998
Consortium Size
1 orgs
Start Year
2023
Summary

Climate change is a defining issue of our time. Without significant, rapid greenhouse gas (GHG) emission reductions, we will face unpredictable consequences for climate and life. To effectively reduce GHGs, the emissions must be accurately quantified and unknown emitters found. However, measuring global GHG emissions is very challenging, and hence current emission inventories rely mostly on bottom-up calculations, which lack accuracy and the ability to detect unknown sources.In CoSense4Climate, I will use the powerful mathematical theory of compressed sensing (CS) to revolutionize atmospheric inversion. My goal is to develop a method to locate, quantify, and attribute GHG emitters with unmatched spatial resolution and accuracy. CS has been used with great success in signal and image processing by taking advantage of the fact that most signals contain redundancies. Using CS in combination with domain transformations, I will generate accurate high resolution emission fields and reveal unknown sources, yet require less data than conventional methods. I will develop a CS inversion framework not only for local sensor data, but also for satellite data, which, upon success, will lead to a breakthrough in monitoring urban GHG emissions globally.I am best suited to reach this goal. I have gathered a unique dataset with my fully automated differential column GHG network MUCCnet, the first of its kind. With my rich experience in applying computational fluid dynamics (CFD), solar-induced fluorescence (SIF), and machine learning (ML) for estimating GHG emissions, I will additionally create a high-resolution CFD-based atmospheric transport model, a satellite SIF-based urban CO2 biogenic flux model, and a ML method for source attribution based on ratios of GHG and air pollutant concentrations.CoSense4Climate will establish a new standard for GHG emission monitoring, and provide ground-breaking scientific methods to help solve one of todays most urgent problem: climate change.

Consortium (1)

Project Results (8)

Source: CORDIS, the EU research results database.

Publications (8)
Analyzing the Inversion Performance of a Permanent Urban Column GHG Network: An OSSE Perspective
Earth and Space Science· 2025DOI
Jun Zhang, Jia Chen, Kai Wu, Haoyue Tang
Building-resolving simulations of anthropogenic and biospheric CO<sub>2</sub> in the city of Zurich with GRAMM/GRAL
ACP· 2025DOI
Dominik Brunner; Ivo Suter; Leonie Bernet; Lionel Constantin; Stuart K. Grange; Pascal Rubli; Junwei Li; Jia Chen; Alessandro Bigi; Lukas Emmenegger
DRIVE v1.0: A data-driven framework to estimate road transport emissions and temporal profiles
Geoscientific Model Development· 2025DOI
Daniel Kühbacher; Jia Chen; Patrick Aigner; Mario Ilic; Ingrid Super; Hugo Denier van der Gon
Inverse Estimation of Urban Methane Emissions Using Both Column and Surface Observations: An OSSE Study
Journal of Geophysical Research: Atmospheres· 2025DOI
Jun Zhang, Jia Chen, Sanam Noreen Vardag, Haoyue Tang
Methane Emissions from Natural Gas Systems: A Synthesized Review and Insights into Mitigation Gaps and Pathways
Natural Gas in the 21st Century· 2025DOI
Hossein Maazallahi, Jia Chen, Julianne M. Fernandez
Remote Sensing
Remote Sensing· 2025DOI
Mahesh Kumar Sha; Saswati Das; Matthias M. Frey; Darko Dubravica; Carlos Alberti; Bianca C. Baier; Dimitrios Balis; Alejandro Bezanilla; Thomas Blumenstock; Hartmut Boesch; Zhaonan Cai; Jia Chen; Alexandru Dandocsi; Martine De Mazière; Stefani Foka; Omaira García; Lawson David Gillespie; Konstantin Gribanov; Jochen Gross; Michel Grutter; Philip Handley; Frank Hase; Pauli Heikkinen; Neil Humpage; Nicole Jacobs; Sujong Jeong; Tomi Karppinen; Matthäus Kiel; Rigel Kivi; Bavo Langerock; Joshua Laughner; Morgan Lopez; Maria Makarova; Marios Mermigkas; Isamu Morino; Nasrin Mostafavipak; Anca Nemuc; Timothy Newberger; Hirofumi Ohyama; William Okello; Gregory Osterman; Hayoung Park; Razvan Pirloaga; David F. Pollard; Uwe Raffalski; Michel Ramonet; Eliezer Sepúlveda; William R. Simpson; Wolfgang Stremme; Colm Sweeney; Noemie Taquet; Chrysanthi Topaloglou; Qiansi Tu; Thorsten Warneke; Debra Wunch; Vyacheslav Zakharov; Minqiang Zhou
Intercomparison of biogenic CO<sub>2</sub> flux models in four urban parks in the city of Zurich
Biogeosciences· 2024DOI
Stavros Stagakis; Dominik Brunner; Junwei Li; Leif Backman; Anni Karvonen; Lionel Constantin; Leena Järvi; Minttu Havu; Jia Chen; Sophie Emberger; Liisa Kulmala
Fossil Fuel CO<sub>2</sub> Emission Signatures Over India Captured by OCO‐2 Satellite Measurements
Earth's Future· 2023DOI
Vigneshkumar Balamurugan; Jia Chen