J. Redelstein,1 M. Budde,2 J. Cyrys,3 S. Emeis,2 T. Gratza,4 H. Grimm,5 M. Hank,6 C. Holst,2 C. Münkel,6 M. Pesch,7 E. Petersen,1 A. Philipp,1 T. Riedel,2 J. Riesterer,2 K. Schäferhttps://orcid.org/0000-0003-2491-6331,8 J. Schnelle-Kreis,3 U. Uhrner,9 J. Werhahn,2 V. Ziegler,7 M. Beigl2
1Univ. of Augsburg (Germany) 2Karlsruhe Institute of Technology (Germany) 3Helmholtz Zentrum München GmbH (Germany) 4Stadt Augsburg (Germany) 5Aerosol Akademie e.V. (Germany) 6Vaisala GmbH (Germany) 7GRIMM Aerosol Technik Ainring GmbH and Co. KG (Germany) 8Atmospheric Physics Consultant (Germany) 9Technical Univ. Graz (Austria)
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Ground-based remote sensing by three ceilometers for mixing layer height detection over Augsburg as well as a Radio- Acoustic Sounding System (RASS) for temperature and wind profile measurements at the campus of Augsburg University are applied together with UAV height profiling with low-weight meteorological sensors and particle counter to monitor the three-dimensional dynamics of the lower atmosphere. Results about meteorological influences upon spatial variation of air pollution exposure are presented on this data basis which is more than one year long. Special focus is on the information about atmospheric layering as well as mixing and transport conditions for emitted particulate matter. Better understanding of these complex processes support knowledge about quality of air, which we breath, and especially high air pollution episodes and hot spot pollution regions.
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J. Redelstein, M. Budde, J. Cyrys, S. Emeis, T. Gratza, H. Grimm, M. Hank, C. Holst, C. Münkel, M. Pesch, E. Petersen, A. Philipp, T. Riedel, J. Riesterer, K. Schäfer, J. Schnelle-Kreis, U. Uhrner, J. Werhahn, V. Ziegler, M. Beigl, "Assessment of three-dimensional, fine-granular measurement of particulate matter by a smart air quality network in urban area," Proc. SPIE 11152, Remote Sensing of Clouds and the Atmosphere XXIV, 111520N (9 October 2019); https://doi.org/10.1117/12.2533096