J
Joachim Reuder
Researcher at Geophysical Institute, University of Bergen
Publications - 126
Citations - 2609
Joachim Reuder is an academic researcher from Geophysical Institute, University of Bergen. The author has contributed to research in topics: Wind speed & Turbulence. The author has an hindex of 26, co-authored 109 publications receiving 2127 citations. Previous affiliations of Joachim Reuder include Bjerknes Centre for Climate Research & University of Bergen.
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Journal ArticleDOI
The BLLAST field experiment: Boundary-Layer Late Afternoon and Sunset Turbulence
Marie Lothon,Fabienne Lohou,David Pino,Fleur Couvreux,Eric R. Pardyjak,Joachim Reuder,J. Vilà-Guerau de Arellano,Pierre Durand,Oscar Hartogensis,D. Legain,Patrick Augustin,Beniamino Gioli,Donald H. Lenschow,Ian Faloona,Carlos Yagüe,D. C. Alexander,Wayne M. Angevine,E Bargain,Joël Barrié,Eric Bazile,Y. Bezombes,E. Blay-Carreras,A. van de Boer,A. van de Boer,J. L. Boichard,Aurélien Bourdon,A. Butet,B. Campistron,O. de Coster,Joan Cuxart,Alain Dabas,Clara Darbieu,Karine Deboudt,Hervé Delbarre,Solène Derrien,Pascal Flament,Marc Fourmentin,Anirban Garai,Fabien Gibert,Alexander Graf,J. Groebner,Françoise Guichard,Maria A. Jiménez,Marius Opsanger Jonassen,A. C. van den Kroonenberg,Vincenzo Magliulo,Sabrina Martin,D. Martinez,D. Martinez,L. Mastrorillo,Arnold F. Moene,F. Molinos,Eric Moulin,H.P. Pietersen,Bruno Piguet,E. Pique,Carlos Román-Cascón,C. Rufin-Soler,Frédérique Saïd,M. Sastre-Marugán,Yann Seity,Gert-Jan Steeneveld,Piero Toscano,O. Traulle,Diane Tzanos,S. Wacker,Norman Wildmann,Alessandro Zaldei +67 more
TL;DR: The BLLAST (Boundary-Layer Late Afternoon and Sunset Turbulence) field campaign was conducted from 14 June to 8 July 2011 in southern France, in an area of complex and heterogeneous terrain this article.
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The Small Unmanned Meteorological Observer SUMO: A new tool for atmospheric boundary layer research
TL;DR: The Small Unmanned Meteorological Observer SUMO (SUMO) is based on a light-weighted styrofoam model airplane, equipped with an autopilot system for autonomous flight missions and in its recent version with meteorological sensors for temperature, humidity and pressure as mentioned in this paper.
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Intercomparison of Small Unmanned Aircraft System (sUAS) Measurements for Atmospheric Science during the LAPSE-RATE Campaign.
Lindsay Barbieri,Stephan T. Kral,Sean C. C. Bailey,Amy E. Frazier,Jamey Jacob,Joachim Reuder,David Brus,Phillip B. Chilson,Christopher Crick,Carrick Detweiler,Abhiram Doddi,Jack Elston,Hosein Foroutan,Javier Gonzalez-Rocha,Brian R. Greene,Marcelo I. Guzman,Adam L. Houston,Ashraful Islam,Osku Kemppinen,Dale Lawrence,Elizabeth A. Pillar-Little,Shane D. Ross,Michael P. Sama,David G. Schmale,Travis J. Schuyler,Ajay Shankar,Suzanne Weaver Smith,Sean Waugh,Cory Dixon,Steve Borenstein,Gijs de Boer,Gijs de Boer +31 more
TL;DR: Sensor configurations, which included proper aspiration and radiation shielding of sensors, were found to provide the most accurate thermodynamic measurements (temperature and relative humidity), whereas sonic anemometers on multirotor platforms provided themost accurate wind measurements (horizontal speed and direction).
Journal ArticleDOI
Diurnal Winds in the Himalayan Kali Gandaki Valley. Part I: Observations
Joseph Egger,Sapta Bajrachaya,Ute Egger,Richard Heinrich,Joachim Reuder,Pancha Shayka,Hilbert Wendt,Volkmar Wirth +7 more
TL;DR: The diurnal wind system of the Kali Gandaki valley in Nepal was explored in September and October 1998 in a field campaign using pilot balloons as the main observational tool as discussed by the authors, and the strongest upvalley winds were found between Marpha and Chuksang with typical speeds of 15-20 m s−1.
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Atmospheric profiling with the UAS SUMO: a new perspective for the evaluation of fine-scale atmospheric models
TL;DR: In this paper, unmanned aerial system measurements collected by the small unmanned meteorological observer (SUMO) are used to evaluate atmospheric boundary layer (ABL) parameterization schemes embedded in the Advanced Weather Research and Forecasting model (AR-WRF).