Surface-Based Remote Sensing of the Atmospheric Boundary Layer

Prof. Dr. Stefan Emeis is a meteorologist and has been working in his profession for more than 30 years. His main topics are measuring and modelling wind profiles, turbulence, and the stratification of the atmospheric boundary layer. He utilizes ground-based remote sensing techniques (SODAR, RASS, Ceilometer) and numerical simulation models (MM5, WRF). He completed his PhD at Bonn University in 1985 and his postdoctoral thesis at Karlsruhe University in 1994. In 1991 he spent his three-month sabbatical leave at the Danish National Laboratory's Institute for Wind Energy in Risø. Since 1995 he has been working at the Institute for Meteorology and Climate Research in Garmisch-Partenkirchen, which today forms part of the Karlsruhe Institute of Technology. Prof. Dr. Emeis currently gives lectures on meteorological measurement techniques at Cologne University. Since 1992 he has been involved in the publication of Meteorologische Zeitschrift, and since 2007 he has served as deputy editor-in-chief of this journal.

• 1. Introduction.- 2. Analytical description and vertical structure of the ABL.- 3. Basic principles of surface-based remote sensing.- RADAR.- SODAR.- RASS.- LIDAR.- Radiometers.- 4. Applications.- Vertical layering of the ABL.- Vertical profiles of atmospheric variables.- Vertical flux profiles.- Regional and local flow systems.- Conclusions on the applicability of ground-based remote sensing for ABL research and monitoring.- 5. Outlook.- Appendix: History of ISARS conferences.- Glossary.- Index.