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  • E-mailJoachim.Reuder@uib.no
  • Phone+47 55 58 84 33+47 473 81 397
  • Visitor Address
    Allegt. 70
    Room 
    206
  • Postal Address
    Postboks 7803
    5020 BERGEN

Boundary layer meteorology:

  • surface atmosphere interactions and exchange processes in the polar boundary layer
  • determination of energy and mass fluxes by profile and eddy-correlation method
  • development and use of small unmanned aircrafts for atmospheric profiling
  • studies on the marine atmospheric boundary layer with respect to offshore wind energy applications
  • wind-wave interaction

Orographic effects:

  • fine-scale measurement and modelling of orographic induced precipitation variability
  • investigations on dynamics and thermodynamics of banner clouds
  • diurnal boundary layer circulation systems and flow modification by orography

Solar UV radiation:

  • measurement and modelling of solar UV radiation
  • photobiological and photochemical effects of UV radiation
  • reconstruction of UV radiation for the past decades
  • future scenarios of UV radiation

Courses:

  • GEOF220: Physical Meteorology - Cloud Physics (spring term)
  • GEOF322: Local Meteorology (spring term)
  • GEOF323: Field course in Meteorology (spring term)
  • GEOF310: Turbulence in the Atmospheric and Oceanic Boundary Layer - Atmosphere (autumn term)
  • Seminar series Geophysics of Renewable Energy - Wind Energy (autumn term)
  • Seminar series Offshore Wind Energy - Marine Atmospheric Boundary Layer (autumn term)

Present supervision of PhD students:

(principal supervisor for the students in bold)

  • Sai Wang (GFI/UiB): Measurement and modelling of terrain-induced atmospheric turbulence in the vicinity of exposed airports (2020-2023)
  • Jan-Markus Diezel (GFI/UiB): Boundary layer characterization for airborne wind energy applications (2020-2023)
  • Maria Krutova (GFI/UiB): Investigation of wave meandring behind wind turbines (2019-2023)
  • Christiane Duscha (GFI/UiB): Remote sensing of the atmospheric boundary layer for wind energy research (2019-2022)
  • Sonja Wahl (GFI/UiB): Quantification of the isotopic flux between atmosphere and snow surface and it’s implication on ice core isotopic fingerprints (2018-2021)
  • Astrid Nybø (GFI/UiB): A study of the relation between offshore wind characteristics and the dynamics of floating wind turbines (2017-2021)
  • Stephan Kral (GFI/UiB): Innovative strategies for the observation of the Arctic Atmospheric Boundary Layer (2016-2019) 
  • Omar El Guernaoui (GFI/UiB): Investigation of the Atmospheric Boundary Layer by LES modelling (2015-2019)
  • Martin Flügge (GFI/UiB): Characterization of the marine atmospheric boundary layer for offshore wind energy applications (2010-)

Accomplished supervision of PhD students:

(principal supervisor for the students in bold)

  • Line Båserud (GFI/UiB): Turbulence investigations with the remotely piloted aircraft system SUMO (2014-2018); defended 19.12.2018
  • Isaac Mugume (Makerere University - GFI/UiB): Optimizing the Weather Research and Forecasting model WRF for operational weather forecasting in Uganda (2014-2017)
  • Radiance Calmer (CNRM, Toulouse): Aerosol-cloud closure study using RPAS measurements (2014-2018); defended March 2018
  • Torge Lorenz (GFI/UiB-Uni Reserach): Dynamical downscaling of North Sea winds: Reanalysis and ensemble predictions; defended 05.05.2017
  • Tobias Wolf (GFI/UiB-NERSC): An Integrated Approach for Local Air Quality Assessment under Present and Future Climate Scenarios; defended 16.12.2016
  • Valerie Kumer (GFI/UiB): The Potential of LIDAR Measurements for Investigations of Wind Turbine Wakes; defended 13.09.2016
  • Giulio Nils Caroletti (GFI/Uni Research): A linear model for orographic precipitation in meteorological and climatological downscaling; defended 24.06.2015
  • Sabrina Martin (University of Tübingen, Germany): Proof of Concept for Observing Thermal Characteristics of the Turbulent Atmospheric Boundary Layer over Land Surface with a Small Unmanned Aerial Vehicle; defended 16.01.2014
  • Olav Krogsæter (GFI/UiB-StormGeo): The marine atmospheric boundary layer and ocean waves under the aspect of wind energy applications; defended 16.12.2013
  • Marius Jonassen (GFI/UiB): Local- and mesoscale variability of winds in the complex topography of Southwestern Norway and Iceland; defended 30.11.2012
  • Stephanie Mayer (GFI/UiB): Application and Improvement of the Unmanned Aerial System SUMO for Atmospheric Boundary Layer Studies; defended 02.09.2011

Supervision of master students:

(principal supervisor for the students in bold)

  • Gabin Urbancic, 2018-2019: The Atmospheric Surface Layer over Dronning Maud Land, Antarctica.
  • Ariadna Corominas Del Hoyo (University of Barcelona), 2017-2018: Estimation of the time constants for the temperature and relative humidity sensors used on the SUMO aircraft during the Hailuoto campaign.
  • Rouzbeh Siavashi, 2017-2018: Modelling power output and structural response of offshore wind turbines as function of atmospheric stability and sea state.
  • Alice Casagrande Cesconetto, 2017-2018: Modelling the effect of environmental conditions on floating offshore wind turbines.
  • Isak Slettebø, 2017-2018: Surface-atmosphere exchange and permafrost in Finnmark.
  • Karoline Seilen, 2017-2018: Temperature inversions in the Bergen valley.
  • Arnd Fligg (University of Oldenburg), 2016-2017: Validation of remotely sensed wind, temperature and humidity profiles against radiosoundings.
  • Anja Külpmann (University of Oldenburg), 2016-2017: Case study of mesoscale wind fluctuations during cold-air outbreaks.
  • David Wagner (University of Oldenburg), 2016-2017: Low-level-jet events within the Southern North Sea.
  • Andrew Seidl, 2016-2017: Investigations on the structure and development of the convective boundary layer using the CLASS model.
  • Lucas Hoeppler (University of Munich), 2015-2016: Characterization of small scale precipitation with MRR measurements and MET Norway radar data.
  • Gerrit Anke Rau (University of Tübingen), 2015-2016: Two new technologies to measure the turbulent wind vector aboard small research UAV.
  • Rannveig Eikill, 2015-2016: Characterization of wind turbine wakes combining lidar measurements and SCADA data.
  • Andreas Frøyland, 2015-2016: Turbulent structure of the ABL in Adventalen, Svalbard, during polar night/winter.
  • Marie Pontoppidan, 2014-2015: Fine scale distribution of precipitation in the Voss area.
  • Ragnhild Nordhagen, 2013-2014: Norwegian cool valleys and associated forecast challenges.
  • Kristine Klementsen, 2013-2014: Validating wake models for large offshore wind farms.
  • Lillian Bergheim, 2012-2013: Results from 3 years of precipitation measurements in Bergen using the vertically pointing Micro Rain Radar (MRR).
  • Konstantinos Christakos, 2012-2013: Characterization of the costal marine atmospheric boundary layer (MABL) for wind energy applications.
  • Aurora Stenmark, 2012-2013: Characterization of the Arctic boundary layer by UAS and balloons.
  • Line Båserud, 2012-2013: Turbulence measurements with the UAS SUMO.
  • Aslaug Valved, 2011-2012: Investigation on the wind conditions in the Bergen Valley.
  • Andrea Eugster, 2010-2011: Onshore lidar wind profile measurements at Utsira and their benefit for offshore wind turbine design and operation.
  • Mette Skjerdal, 2008-2009: Variability of precipitation in complex terrain and the investigation of representativeness of a single point measurement for the Matre Hydro System, Western Norway.
  • Ina Sulen, 2008-2009: Predictability of precipitation in complex terrain - A comparison of high-resolution rain gauge measurements and fine-scale numerical simulations.
  • Marius Jonassen, 2007-2008: The Small Unmanned Meteorological Observer SUMO: Characterization and test of a new measurement system for atmospheric boundary layer research.
  • Geir Ottar Fagerlid, 2006-2007: Small scale orographic precipitation: A study of phase I & II of the STord Orographic Precipitation EXperiment (STOPEX).
  • Brynhild Sjølingstad, 2006-2007: Reconstruction of UV radiation: UV exposure of the Arcto-Norwegian cod egg population, 1957-2005.
  • Iselin Medhaug, 2006-2007: Reconstruction of UV-radiation and its implications on development of skin cancer.
Academic article
  • 2020. The Innovative Strategies for Observations in the Arctic Atmospheric Boundary Layer Project (ISOBAR) — Unique fine-scale observations under stable and very stable conditions . Bulletin of The American Meteorological Society - (BAMS).
  • 2020. Evaluation of different wind fields for the investigation of the dynamic response of offshore wind turbines. Wind Energy. 1810-1830.
  • 2019. Wind Stress in the Coastal Zone: Observations from a Buoy in Southwestern Norway . Atmosphere. 1-32.
  • 2019. Scaling the decay of turbulence kinetic energy in the free-convective boundary layer. Boundary-layer Meteorology. 79-97.
  • 2019. Processing of sonic anemometer measurements for offshore wind turbine applications. Journal of Physics: Conference Series.
  • 2019. Potential and limitations in estimating sensible-heat-flux profiles from consecutive temperature profiles using remotely-piloted aircraft systems. Boundary-layer Meteorology. 145-177.
  • 2019. Low Level Jets over the Southern North Sea. Meteorologische Zeitschrift. 389-415.
  • 2019. Intercomparison of small unmanned aircraft system (sUAS) measurements for atmospheric science during the LAPSE-RATE campaign. Sensors. 1-32.
  • 2019. A new roughness length parameterization accounting for wind-wave (mis)alignment. Atmospheric Chemistry and Physics. 6681-6700.
  • 2018. Velocity spectra and coherence estimates in the marine atmospheric boundary layer. Boundary-layer Meteorology. 1-32.
  • 2018. The role of roughness and stability on the momentum flux in the marine atmospheric surface layer: A study on the Southwestern Atlantic Ocean. Journal of Geophysical Research (JGR): Atmospheres. 3914-3932.
  • 2018. Innovative strategies for observations in the Arctic atmospheric boundary layer (ISOBAR)—The Hailuoto 2017 Campaign. Atmosphere. 29 pages.
  • 2018. Improving quantitative rainfall prediction using ensemble analogues in the tropics: Case study of Uganda. Atmosphere.
  • 2017. The large scale circulation during air quality hazards in Bergen, Norway. . Tellus. Series A, Dynamic meteorology and oceanography.
  • 2017. Sensitivity of local air quality to the interplay between small and large-scale circulations: a large-eddy simulation study. Atmospheric Chemistry and Physics. 7261-7276.
  • 2017. On the formulation and universality of Monin-Obukhov similarity functions for mean gradients and standard deviations in the unstable surface layer: Results from surface-layer-resolving large-eddy simulations. Journal of the Atmospheric Sciences. 989-1010.
  • 2017. Offshore wind turbine wake characteristics using scanning doppler lidar. Energy Procedia. 428-442.
  • 2017. Downscaling an intense precipitation event in complex terrain: the importance of high grid resolution. Tellus. Series A, Dynamic meteorology and oceanography. 1-15.
  • 2017. Current and turbulence measurements at the FINO1 offshore wind energy site: analysis using 5-beam ADCPs. Ocean Dynamics. 109-130.
  • 2017. Characterization of turbulence in wind turbine wakes under different stability  conditions from static Doppler LiDAR measurements. Remote Sensing. 1-20.
  • 2017. Assessing the potential of a commercial pulsed lidar for wind characterisation at a bridge site. Journal of Wind Engineering and Industrial Aerodynamics. 17-26.
  • 2017. Assessing the Performance of WRF Model in Simulating Rainfall over Western Uganda. Journal of Climatology & Weather Forecasting.
  • 2017. A surface-layer study of the transport and dissipation of turbulent kinetic energy and the variances of temperature, humidity and CO2. Boundary-layer Meteorology. 211-231.
  • 2017. 2D VAR single Doppler LIDAR vector retrieval and its application in offshore wind energy. Energy Procedia. 497-504.
  • 2016. Wind Coherence Measurement by a Single Pulsed Doppler Wind Lidar. Energy Procedia. 462-477.
  • 2016. Turbulent kinetic energy estimates from profiling wind LiDAR measurements and their potential for wind energy applications. Renewable Energy. 898-910.
  • 2016. Similarity analysis of turbulent transport and dissipation for momentum, temperature, moisture and CO2 during BLLAST. Atmospheric Chemistry and Physics Discussions.
  • 2016. Proof of concept for wind turbine wake investigations with the RPAS SUMO. Energy Procedia. 452-461.
  • 2016. Proof of concept for turbulence measurements with the RPAS SUMO during the BLLAST campaign. Atmospheric Measurement Techniques. 4901-4913.
  • 2016. Patterns of dekadal rainfall variation over a selected region in Lake Victoria Basin, Uganda. Atmosphere.
  • 2016. Non Homogeneous Poisson Process Modelling of Seasonal Extreme Rainfall Events in Tanzania. International Journal of Science and Research (IJSR). 1858-1868.
  • 2016. Exploring the potential of the RPA system SUMO for multipurpose boundary-layer missions during the BLLAST campaign. Atmospheric Measurement Techniques. 2675-2688.
  • 2016. Estimation of the advection effects induced by surface heterogeneities in the surface energy budget. Atmospheric Chemistry and Physics. 9489-9504.
  • 2016. Comparison of direct covariance flux measurements from an offshore tower and a buoy. Journal of Atmospheric and Oceanic Technology. 873-890.
  • 2016. Comparison of Parametric and Nonparametric Methods for Analyzing the Bias of a Numerical Model. Modelling and Simulation in Engineering. 7 pages.
  • 2016. Automated Measurements of Whitecaps on the Ocean Surface from a Buoy-Mounted Camera. Methods in oceanography. 14-31.
  • 2015. Validation of boundary layer parameterization schemes in the weather research and forecasting model under the aspect of offshore wind energy applications - Part I: Average wind speed and wind shear. Wind Energy. 769-782.
  • 2015. Validation of boundary layer parameterization schemes in the Weather Research and Forecasting Model (WRF) under the aspect of offshore wind energy applications - Part II: Boundary layer height and atmospheric stability. Wind Energy. 1291-1302.
  • 2015. Lifted temperature minimum during the atmospheric evening transition. Atmospheric Chemistry and Physics. 6981-6991.
  • 2015. Lagrangian measurement of waves and near surface turbulence from acoustic instruments. Energy Procedia. 141-150.
  • 2015. Characterisation of single wind turbine wakes with static and scanning WINTWEX-W LiDAR data. Energy Procedia. 245-254.
  • 2015. Assessment of wind conditions at a fjord inlet by complementary use of sonic anemometers and lidars. Energy Procedia. 411-421.
  • 2014. The influence of nunataks on atmospheric boundary layer convection during summer in Dronning Maud Land, Antarctica. Journal of Geophysical Research (JGR): Atmospheres. 6548.
  • 2014. The BLLAST field experiment: Boundary-Layer late afternoon and sunset turbulence. Atmospheric Chemistry and Physics. 10931-10960.
  • 2014. Study of a prototypical convective boundary layer observed during BLLAST: contributions by large-scale forcings. Atmospheric Chemistry and Physics. 4241-4257.
  • 2014. Characterization of the SUMO Turbulence Measurement System for Wind Turbine Wake Assessment. Energy Procedia. 173-183.
  • 2014. Analysis of the vertical temperature structure in the Bergen valley, Norway, and its connection to pollution episodes, and its connection to pollution episodes. Journal of Geophysical Research (JGR): Atmospheres. 10,645-10,662.
  • 2014. Analysis of a low-level coastal jet off the western coast of Norway. Energy Procedia. 162-172.
  • 2014. A Comparison of LiDAR and Radiosonde Wind Measurements. Energy Procedia. 214-220.
  • 2013. Wave-induced characteristics of atmospheric turbulence flux measurements. Energy Procedia. 102-112.
  • 2013. Simulations of the Bergen orographic wind shelter. Tellus. Series A, Dynamic meteorology and oceanography. 17 pages.
  • 2013. Preliminary results of the NORCOWE Direct Covariance Flux System for Ship based measurements. Energy Procedia. 128-136.
  • 2013. Experimental characterization of the marine atmospheric boundary layer in the Havsul area, Norway. Energy Procedia. 121-127.
  • 2012. The small unmanned meteorological observer SUMO: recent developments and applications of a micro-UAS for atmospheric boundary layer research. Acta Geophysica. 1454-1473.
  • 2012. Sensor movement correction for direct turbulence measurements in the marine atmospheric boundary layer. Energy Procedia. 159-165.
  • 2012. Profiling the arctic stable boundary layer in Advent Valley, Svalbard : measurements and simulations. Boundary-layer Meteorology. 507-526.
  • 2012. Multi-scale variability of winds in the complex topography of southwestern Norway. Tellus. Series A, Dynamic meteorology and oceanography. 17 pages.
  • 2012. Improving high-resolution numerical weather simulations by assimilating data from an unmanned aerial system. Monthly Weather Review. 3734-3756.
  • 2012. First results of turbulence measurements in a wind park with the Small Unmanned Meteorological Observer SUMO. Energy Procedia. 176-185.
  • 2012. FLOHOF 2007: an overview of the mesoscale meteorological field campaign at Hofsjokull, Central Iceland. Meteorology and atmospheric physics (Print). 1-13.
  • 2012. Banner clouds observed at Mount Zugspitze. Atmospheric Chemistry and Physics. 3611-3625.
  • 2012. Atmospheric profiling with the UAS SUMO: A new perspective for the evaluation of fine-scale atmospheric models. Meteorology and atmospheric physics (Print). 15-26.
  • 2012. A ´no-flow-sensor` wind estimation algorithm for Unmanned Aerial Systems. International Journal of Micro Air Vehicles. 15-29.
  • 2011. The Norwegian IPY-THORPEX. Polar Lows and Arctic Fronts during the 2008 Andøya Campaign. Bulletin of The American Meteorological Society - (BAMS). 1443-1466.
  • 2009. UV radiation and skin cancer in Norway. Journal of Photochemistry and Photobiology. B: Biology. 232-241.
  • 2009. The Small Unmanned Meteorological Observer SUMO: A new tool for atmospheric boundary layer research. Meteorologische Zeitschrift. 141-147.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research. IOP Conference Series: Earth and Environmental Science (EES). 10 pages.
  • 2007. Stord Orographic Precipitation Experiment (STOPEX): an overview of phase I. Advances in Geosciences. 17-23.
  • 2007. Investigations on the effect of high surface albedo on erythemally effective UV irradiance: Results of a campaign at the Salar de Uyuni, Bolivia. Journal of Photochemistry and Photobiology. B: Biology. 1-8.
  • 2007. Definition of "banner clouds" based on time lapse movies. Atmospheric Chemistry and Physics. 2047-2055.
  • 2006. Effects of altitude and aerosol on UV radiation. Journal of Geophysical Research (JGR). 11 pages.
  • 2006. Diurnal circulation of the South American Altiplano: observations in a valley and at a pass. Tellus. Series A, Dynamic meteorology and oceanography. 254-262.
  • 2005. Reconstruction of UV radiation over Southern Germany for the past decades. Meteorologische Zeitschrift. 237-246.
  • 2005. Long term measurements of the UV irradiance of inclined surfaces and visualization of UV exposure of the human body. Meteorologische Zeitschrift. 285-290.
  • 2005. Diurnal circulation of the Bolivian Altiplano. Part I: Observations. Monthly Weather Review. 911-924.
  • 2005. Cloud frequency with respect to remote sensing applications: example of Bavaria, southern Germany. International Journal of Remote Sensing. 4733-4745.
Lecture
  • 2019. The COTUR campaign - measuring offshore turbulence and coherence With lidars.
  • 2019. Comparison and investigation on the lidar-measured turbulence intensities in the measurement campaign using two independent lidars.
  • 2019. COTUR - Estimating coherence and turbulence with LIDARs.
  • 2018. The ISOBAR project and the Hailuoto field campaign in February 2018.
  • 2018. NORCOWE Measurement campaigns.
  • 2018. COTUR Measuring coherence and turbulence with lidars.
  • 2017. The NORCOWE legacy - Data and Instrumentation.
  • 2017. Meteorological measurements during OBLEX-F1.
  • 2017. Air-Sea Interacton at Wind Energy Site in FINO1 Using DCF (Lidar) Measurements from OBLEX-F1 campaign.
  • 2016. Upper Ocean Variability at FINO1 Wind Energy Site: Observation and Modelling.
  • 2016. Turbulent fluxes observed during the Air-Sea Interaction at the Brazil-Malvinas Confluence.
  • 2016. The ISOBAR project (2016–2018) – Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2016. NORCOWE contributions to improvements in measurement methods and measurement technique.
  • 2016. A decade of RPAS based boundary layer research at the Geophysical Institute in Bergen.
  • 2015. Measurements for wind energy with focus on LiDAR.
  • 2014. NORCOWE highlights.
  • 2014. Metocean analysis of a low-level coastal jet off the Norwegian coast.
  • 2013. The marine atmospheric boundary layer (MABL).
  • 2013. Recent developments in (offshore) wind power meteorology.
Academic lecture
  • 2020. On the Stochastic Reduced-Order and LES-based Models of Offshore Wind Turbine Wake.
  • 2020. Observations and simulations from an arctic fjord and valley environment in Svalbard.
  • 2020. Boundary Layer Research at GFI/UiB.
  • 2019. Wind- und Turbulenzmessung in stabiler Grenzschicht mit kleinen unbemannten Luftfahrzeugen während zweier ISOBAR Kampagnen im nördlichen Finnland.
  • 2019. The ISOBAR Project on stable boundary layers - Current status on data analysis and results.
  • 2019. The COTUR campaign – measuring offshore turbulence and coherence with lidars.
  • 2019. Synthesis and validation of meteorological parameters from different RPAS during the ISOBAR campaigns at Hailuoto.
  • 2019. Remotely Piloted Aircraft Systems in Atmospheric Boundary Layer Research.
  • 2019. Processing of sonic anemometer measurements for offshore wind turbine applications .
  • 2019. New Perspectives of Boundary Layer Research at GFI/UiB.
  • 2019. Height dependence of turbulence decay during the evening transition of the convective boundary layer.
  • 2019. Development and Field testing of a net-landing system for ship based SUMO operations.
  • 2018. Wind and Turbulence Measurements with RPA during the ISOBAR Campaign.
  • 2018. The two ISOBAR Stable Boundary Layer Field Campains at Hailuoto, Finland in 2017 and 2018: Experimental Setup and First Results.
  • 2018. The two ISOBAR Stable Boundary Layer Field Campaigns at Hailuoto, Finland in 2017 and 2018: Experimental Setup and First Results.
  • 2018. The Two ISOBAR Stable Boundary Layer Field Campains at Hailuoto, Finland in 2017 and 2018: Experimental Setup and First Results.
  • 2018. The Innovative Strategies for Observations in the Arctic Atmospheric Boundary LAyeR (ISOBAR) Field Campaign: Perspectives from the University of Oklahoma.
  • 2018. The ISOBAR project on stable boundary layers: Experimental setup and first results of two field campaigns in 2017 and 2018 at Hailuoto, Finland,.
  • 2018. The ISOBAR project on stable boundary layers – The two campaigns on Hailuoto 2017 and 2018.
  • 2018. SUMO profile flights from BLLAST – Flux estimates under various conditions.
  • 2018. Revisiting the scaling for the afternoon/evening transition of the convective boundary layer.
  • 2018. RPAS observation on the structure and evolution of the Atmospheric Boundary Layer during the two ISOBAR field campaigns on Hailuoto, 2017 and 2018.
  • 2018. Advances in the Measurements of the Structure Function Parameter for Temperature Using a Small Unmanned Aircraft System.
  • 2018. Advances in the Estimation of the Structure Function Parameter for Temperature Using a Small Unmanned Aircraft System.
  • 2018. A decade of offshore wind energy research at the Geophysical Institute, University of Bergen.
  • 2017. Two new RPAS for atmospheric boundary layer research based on an off-the-shelf model aircraft and the Paparazzi autopilot .
  • 2017. RPAS based observation on the Arctic Boundary Layer during the ISOBAR campaigns on Andøya and Hailuoto.
  • 2017. OBLEX-F1: The Offshore Boundary Layer Experiment at FINO-1 - Experimental setup and first results.
  • 2017. OBLEX-F1: The Offshore Boundary Layer Experiment at FINO-1 - Experimental setup and first results.
  • 2017. Heat flux estimates from SUMO profiles during the BLLAST campaign.
  • 2017. Frequency and evolution of Low Level Jet events over the Southern North Sea analysed from WRF simulations and LiDAR measurements.
  • 2017. Evolution and properties of Low Level Jet events over the southern North Sea.
  • 2016. The ISOBAR project (2016-2018) - Observations on the stable polar Atmospheric Boundary Layer from Remotely Piloted Aircraft Systems.
  • 2016. Proof of concept for turbulence measurements with the RPAS SUMO during the BLLAST campaign.
  • 2016. NORCOWE met-ocean measurements - Summary and highlights.
  • 2016. Heat fluxes estimated from SUMO profiles during the BLLAST Field campaign.
  • 2016. Decision support for installation of offshore wind turbines.
  • 2016. Boundary-Layer Study at FINO1.
  • 2016. Boundary-Layer Study at FINO1.
  • 2016. An Evaluation of Wind Measurements From SUMO Collected During the BLLAST Campaign.
  • 2015. Yaw angle estimation for the measurement of turbulent fluxes from the Small Unmanned Meteorological Observer (SUMO).
  • 2015. Wind turbine wake measurements with the RPAS SUMO.
  • 2015. Wind Turbine Wake Experiment - Wieringermeer (WINTWEX-W).
  • 2015. Turbulence measurements from the RPAS SUMO during BLLAST.
  • 2015. OBLEX-F1 Offshore Boundary Layer Experiment at Fino 1.
  • 2015. ISARRA - Unde Venis et Quo Vadis.
  • 2015. Floating Platform Motion Correction Using Video Camera Images.
  • 2015. Characterisation of single wind turbine wakes with static and scanning WINTWEX-W lidar data.
  • 2015. BLLAST relevant activities and developments at GFI/UiB.
  • 2015. Assessment of wind conditions at a fjord inlet by complementary use of sonic anemometers and lidars.
  • 2015. Application of lidars for assessment of wind conditions on a bridge site .
  • 2015. Another LES model applied to BLLAST data.
  • 2014. Wind Turbine Wake Experiment - Wieringermeer (WINTWEX-W).
  • 2014. Turbulent flux measurements in the Arctic Boundary Layer using the Small Unmanned Meteorological Observer (SUMO).
  • 2014. Operation of the RPAS SUMO for boundary layer measurements during the BLLAST campaign - Experiences and results.
  • 2014. Ground-based microwave remote sensing of temperature inversions in the Bergen valley, Norway .
  • 2014. Characterization of the SUMO turbulence measurement system for wind turbine wake assessment.
  • 2013. Wave–induced characteristics of atmospheric turbulence flux measurements.
  • 2013. The potential of remotely piloted aircraft systems (RPAS) for wind energy related measurements.
  • 2013. The MOSO field experiment - Overview of findings.
  • 2013. Test and application of a turbulent flow measurement system for the RPAS SUMO.
  • 2013. Sampling small scale surface temperature heterogeneities with small RPAS.
  • 2013. Results from 4 years of wind lidar measurements in the Havsul region.
  • 2013. Remotely Piloted Aircraft Systems (RPAS) - New tools for Atmospheric Research.
  • 2013. Observations of the South Iceland wake using RPAS.
  • 2013. Experimental characterization of the marine atmospheric boundary layer in the Havsul area, Norway.
  • 2013. Effect of wave motion on wind lidar measurements - Comparison testing with controlled motion applied.
  • 2013. Coordination of manned and unmanned flight operations during the BLLAST campaign.
  • 2013. Application of the NORCOWE DCF System for Ship based measurements.
  • 2012. Turbulence measurements with the micro-UAS SUMO - Technical developments and first applications.
  • 2012. Turbulence measurements in a wind park with the Micro-UAS SUMO.
  • 2012. The potential of lidar technology for wind power meteorology.
  • 2012. Sensor movement correction for direct turbulence measurements in the marine atmospheric boundary layer.
  • 2012. Progress in Fine-scale Observations and Simulations of the Atmosphere over the complex terrain of the Bergen region in Western-Norway.
  • 2012. Practical use of RPAS (remotely piloted aircraft systems) in the troposphere.
  • 2012. First results of turbulence measurements in a wind park with the Small Unmanned Meteorological Observer SUMO.
  • 2012. Assimilating data from an unmanned aircraft into a local-scale numerical weather forecast.
  • 2011. TheUAS SUMO: A successful story of an alternative tool foratmospheric boundary layer studies.
  • 2010. Analysis of Arctic Stable Boundary Layers during the ISOBAR Field Campaign.
  • 2009. Simultaneous profiling of the Arctic Atmospheric Boundary Layer.
  • 2009. Measured and modelled UV-radiation in Norway.
  • 2008. SUMO: A Small Unmanned Meteorological observer for atmospheric boundary layer research.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research.
  • 2008. SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research.
  • 2008. Presentation of a proposed COST Action: "Unmanned Aerial Systems (UAS) in atmospheric research".
  • 2008. Measured and modelled UV radiation in Norway.
  • 2007. UV-radiation: Examples from Bergen on Measurements Reconstruction and Applications.
  • 2007. UV-radiation in Norway: Measurements, reconstructions, and applications.
  • 2007. Reconstruction of UV-radiation and its potential implications on development of skin cancer.
  • 2007. Reconstruction of UV radiation: UV exposure of the Arcto-Norwegian cod egg population, 1957-2005.
  • 2006. A Tailored Observational Campaign for Prpgraphic Precipitation - STOPEX 1.
  • 2005. KALI - Probing the atmospheric boundary layer with remotely piloted vehicles.
  • 2005. Calibration of broadband radiometers for erythemally effective UV irradiance considering additional environmental parameters.
Database
  • 2017. N-ICE2015 sodar wind data.
Popular scientific article
  • 2015. Measurement for Offshore Wind Farms. Hydro International. 34-35.
Doctoral dissertation
  • 2018. Turbulence investigations with the Remotely Piloted Aircraft System SUMO.
  • 2017. Dynamical downscaling of North Sea winds: Reanalysis and ensemble predictions.
  • 2016. The Potential of LiDAR Measurements for the Characterization of Wind Turbine Wakes.
  • 2016. An Integrated Approach for Local Air Quality Assessment under Present and Future Climate Scenarios.
Documentary
  • 2006. Værets ansikt.
Errata
  • 2018. Correction to: Current and turbulence measurements at the FINO1 offshore wind energy site: analysis using 5-beam ADCPs. Ocean Dynamics. 157-157.
Academic literature review
  • 2019. The Iceland Greenland seas project. 1795-1817.
Brochure
  • 2019. Vindmåling på Obreatad Fyr.
Article in business/trade/industry journal
  • 2013. Autonomous Aerial Sensors for Wind Power Meteorology. WindTech International.
Chapter
  • 2015. Application of lidars for assessment of wind conditions on a bridge site . . In:
    • 2015. Proceedings of the 14th International Conference on Wind Engineering, 2015, Porto Alegre, Brasil. International Conference on Wind Engineering.

More information in national current research information system (CRIStin)

Submitted manuscripts

Ambrožová, K., K. Láska, M. Matějka, and J. Reuder
Interannual variability of air temperature inversions in ice-free area of northern James Ross Island, Antarctica.
submitted to Atmospheric Chemistry and Physics

Renfrew, I. A., C. Barrell, A. D. Elvidge, J. K. Brooke, C. Duscha, J. C. King, J. Kristiansen, T. Lachlan Cope, G. W. K. Moore, R. S. Pickart, J. Reuder, I. Sandu, D. Sergeev, A. Terpstra, K. Våge, and A. Weiss
An evaluation of surface meteorology and fluxes over the Iceland and Greenland Seas in ERA5 reanalysis: the impact of sea ice distribution.
submitted to Quarterly Journal of the Royal Meteorological Society

Midjiyawa, Z., E. Cheynet, J. Reuder, H. Ágústsson, and T. Kvamsdal
Potential and challenges of wind measurements using met-masts in complex terrain for bridge design: Part I – Integral flow characteristics.
submitted to Journal of Wind Engineering & Industrial Aerodynamics

Midjiyawa, Z., E. Cheynet, J. Reuder, H. Ágústsson, and T. Kvamsdal
Potential and challenges of wind measurements using met-masts in complex terrain for bridge design: Part II – Spectral flow characteristics.
submitted to Journal of Wind Engineering & Industrial Aerodynamics

Bange, J., J. Reuder, and A. Platis
Unmanned Air Vehicle Measurements, Chapter 48 in: Thomas Foken (ed.): Springer Handbook of Atmospheric Measurements, Springer International Publishing, Cham; ISBN: 978-3-030-52170-7
accepted for publication, tentatively for January 2021; doi: 10.1007/978-3-030-51171-4_48

 

Peer-review publications

98. Bakhoday Paskyabi, M., M. Krutova, F. G. Nielsen, J. Reuder, and Omar El Guernaoi, 2020
On the stochastic reduced-order and LES-based models of offshore wind turbine wake.
Journal of Physics: Conference Series, 1669, 012018, doi:10.1088/1742-6596/1669/1/012018 (access)

97. Krutova, M., M. Bakhoday Paskyabi, F. G. Nielsen, and J. Reuder, 2020
Evaluation of Gaussian wake models under different atmospheric stability conditions: comparison with large eddy simulation results.
Journal of Physics: Conference Series, 1669, 012016, doi:10.1088/1742-6596/1669/1/012016 (access)

96. Duscha, C., M. Bakhoday Paskyabi, and J. Reuder, 2020
Statistic and coherence response of ship-based lidar observations to motion compensation.
Journal of Physics: Conference Series, 1669, 012020, doi:10.1088/1742-6596/1669/1/012020 (access)

95. Kral, S. T., J. Reuder, T. Vihma, I. Suomi, K. Flacké Haualand, G. H. Urbancic, B. Greene, G.-J. Steeneveld, T. Lorenz, B. Maronga, M. O. Jonassen, H. Ajosenpää, L. Båserud, P. B. Chilson, A. A. M. Holtslag, A. Jenkins, R. Kouznetsov, S. Mayer, E. A. Pillar-Little, A. Rautenberg, J. Schwenkel, A. W. Seidl, and B. Wrenger, 2020
Innovative Strategies for Observations in the Arctic Atmospheric Boundary Layer Project (ISOBAR) — Unique fine-scale observations under stable and very stable conditions.
Bulletin of the American Meteorological Society, Early Online Release, doi:10.1175/BAMS-D-19-0212.1 (access)

94. Nybø, A., F. G. Nielsen, J. Reuder, M. Churchfield, and M. Godvik, 2020
Evaluation of different wind fields for the investigation of the dynamic response of offshore wind turbines.
Wind Energy, 23, 1810-1830, DOI:10.1002/we.2518 (access)

93. Båserud, L., J. Reuder, M. O. Jonassen, T. A. Bonin, P. B. Chilson, M. A. Jimenez, and P. Durand, 2020
Potential and limitations in estimating sensible heat flux profiles from consecutive temperature profiling by RPAS.
Boundary-Layer Meteorology, 174(1), 145-177, DOI: 10.1007/s10546-019-00478-9 (access)

92. Nybø, A., F. G. Nielsen, and J. Reuder, 2019
Processing of sonic anemometer measurements for offshore wind turbine applications.
Journal of Physics: Conference Series, 1356, 012006, DOI:10.1088/1742-6596/1356/1/012006 (access)

91. Renfrew, I. A., R. S. Pickart, K. Våge, G. W. K. Moore, T. J. Bracegirdle, A. D. Elvidge, E. Jeansson, T. Lachlan-Cope, L.T. McRaven, L. Papritz, J. Reuder, H. Sodemann, A. Terpstra, S. Waterman, H. Valdimarsson, A. Weiss, M. Almansi, F. Bahr, A. Brakstad, C. Barrell, J. K. Brooke, B.J. Brooks, I. M. Brooks, M. E. Brooks, E. M. Bruvik, C. Duscha, I. Fer, H. M. Golid, M. Hallerstig, I. Hessevik, J. Huang, L. Houghton, S. Jónsson, M. Jonassen, K. Jackson, K. Kvalsund, E. W. Kolstad, K. Konstali, J. Kristiansen, R. Ladkin, P. Lin, A. Macrander, A. Mitchell, H. Olafsson, A. Pacini, C. Payne, B. Palmason, M. D. Pérez-Hernández, A. K. Peterson, G. N. Petersen, M. N. Pisareva, J. O. Pope, A. Seidl, S. Semper, D. Sergeev, S. Skjelsvik, H. Søiland, D. Smith, M. A. Spall, T. Spengler, A. Touzeau, G. Tupper, Y. Weng, K. D. Williams, X. Yang, and S. Zhou, 2019
The Iceland Greenland Seas Project.
Bulletin of the American Meteorological Society, 100(9), 1795-1817, DOI:10.1175/BAMS-D-18-0217.1 (access)

90. Flügge, M., M. Bakhoday-Paskyabi, J. Reuder, and O. El Guernaoui, 2019
Wind stress in the coastal zone: Observations from a buoy in Southwestern Norway.
Atmosphere, 10(9), 491; DOI:10.3390/atmos10090491 (access)

89. Wagner, D., G. Steinfeld, B. Witha, H. Wurps, and J. Reuder, 2019
Low Level Jets over the Southern North Sea.
Meteorologische Zeitschrift, 28(5), 389-415, DOI:10.1127/metz/2019/0948 (access)

88. Elguernaoui, O., J. Reuder, I. Esau, T. Wolf, and B. Maronga, 2019
Scaling the decay of turbulence kinetic energy in the free-convective boundary layer.
Boundary-Layer Meteorology, 173, 79-97, DOI:10.1007/s10546-019-00458-z (access)

87. Porchetta, S., O. Temel, D. Muñoz-Esparza, J. Reuder, J. Monbaliu, J. van Beeck, and N. van Lipzig, 2019
A new roughness parameterization accounting for wind-wave (mis)alignment.
Atmospheric Chemistry and Physics, 19, 6681-6700, DOI:10.5194/acp-19-6681-2019 (access)

86. Barbieri, L., S. T. Kral, S. C. C. Bailey, A. E. Frazier, J. D. Jacob, J. Reuder, D. Brus, P. B. Chilson, C. Crick, C. Detweiler, A. Doddi, J. Elston, H. Foroutan, J. Gonzalez-Rocha, B. R. Greene, M. I. Guzman, A. L. Houston, A. Islam, O. Kemppinen, D. Lawrence, E. A. Pillar-Little, S. D. Ross, M. Sama, D. G. Schmale III, T. J. Schuyler, A. Shankar, S. W. Smith, S. Waugh, S. Borenstein, C. Dixon, and G. de Boer, 2019
Intercomparison of Small Unmanned Aircraft System (sUAS) Measurements for Atmospheric Science during the LAPSE-RATE Campaign.
Sensors, 19(9), 2179; DOI:10.3390/s19092179 (access)

85. Ngailo, T., N. Shaban, J. Reuder, M.D.S. Mesquita, E. Rutalebwa, I. Mugume, and C.  Sangalungembe, 2018
Assessing Weather Research and Forecasting (WRF) Model Parameterization Schemes Skill to Simulate Extreme Rainfall Events over Dar es Salaam on 21 December 2011.
Journal of Geoscience and Environment Protection, 6, 36-54, doi: 10.4236/gep.2018.61003 (access)

84. Mugume, I., C. Basalirwa, D. Waiswa, M. Nsabagwa, T. Ngailo,  J. Reuder,  U. Schättler, and M. Semujji, 201
A Comparative Analysis of the Performance of COSMO and WRF models in Quantitative Rainfall Prediction.
International Journal of Marine and Environmental Sciences, 12(2), 130-138, dai:10.1999/1307-6892/10008642 (access)

83. Mugume I., M. S. Mesquita, Y. Bamutaze, D. Ntwali, C. Basalirwa, J. Reuder, R. Twinomuhangi, D. Waiswa, F. Tumwine, T. J. Ngailo, and B. A. Ogwang, 2018
Improving Quantitative Rainfall Prediction Using Ensemble Analogues in the Tropics: Case study of Uganda.
Atmosphere, 9(9), 328, doi:10.3390/atmos9090328 (access

82. Cheynet, E., J. B. Jakobsen, and J. Reuder, 2018
Wind spectra and coherence estimates in the marine atmospheric boundary layer.
Boundary-Layer Meteorology, 169 (3), 429-460, doi:10.1007/s10546-018-0382-2 (access)

81. Kral, S. T., J. Reuder, T. Vihma, I Suomi, E. O'Connor, R. Kouznetsov, B. Wrenger, A. Rautenberg, G. Urbancic, M. O. Jonassen, L. Båserud, B. Maronga, S. Mayer, T. Lorenz, A. A.M. Holtslag, G.-J. Steeneveld, A. Seidl, M. Müller, Ch. Lindenberg, C. Langohr, H. Voss, J. Bange, M. Hundhausen, P. Hilsheimer, and M. Schygulla, 2018
Innovative Strategies for Observations in the Arctic Atmospheric Boundary Layer (ISOBAR) -- The Hailuoto 2017 Campaign.
Atmosphere, 9(7), 268, doi:10.3390/atmos9070268 (access)

80. Hackerott, J. A., L. P. Pezzi, M. Bakhoday Paskyabi, A. P. Oliveira, J. Reuder, R. B. Souza, and R. Camargo, 2018
The role of roughness and stability on the momentum flux in the Marine Atmospheric Surface Layer: a study on the Southwestern Atlantic Ocean
Journal of Geophysical Research - Atmospheres, 123(8), 3914-3932, doi:10.1002/2017JD027994 (access)

79. Cherukuru, N. W., R. Calhoun, R. Krishnamurthy, B. Svardal, J. Reuder, and M. Flügge, 2017
2D VAR single Doppler LIDAR vector retrieval and its application in offshore wind energy.
Energy Procedia, 137, 497-504, doi:10.1016/j.egypro.2017.10.378 (access)

78. Krishnamurthya, R., J. Reuder, B. Svardal, H.J.S. Fernando, and J. B. Jakobsen, 2017
Offshore Wind Turbine Wake characteristics using Scanning Doppler Lidar.
Energy Procedia, 137, 428-442, doi:10.1016/j.egypro.2017.10.367 (access)

77. Wolf-Grosse, T., I. Esau, and J.Reuder, 2017
The large scale circulation during air quality hazards in Bergen,Norway.
Tellus A: Dynamic Meteorology & Oceanography, 69, 1, 1406265, doi:10.1080/16000870.2017.1406265 (access

76. Bakhoday Paskyabi, M., I. Fer, and J. Reuder, 2017
Current and Turbulence Measurements at FINO1 Offshore Wind Energy Site: Analysis Using 5-beam ADCPs.
Ocean Dynamics, 68, 1, 109-130, doi:10.1007/s10236-017-1109-5 (access)

75. Hackerott, J. A., M. Bakhoday Paskyabi, J. Reuder, A. P. Oliveira, S. T. Kral, E. P. M. Marques Filho, M. S. Mesquita, and R. Camargo, 2017
A Surface-Layer Study of the Transport and Dissipation of Turbulent Kinetic Energy and the Variances of Temperature, Humidity and CO2.
Boundary-Layer Meteorology, 165, 211-231, doi:10.1007/s10546-017-0271-0 (access)

74. Wolf-Grosse, T., I. Esau, and J. Reuder, 2017
Sensitivity of the local air quality to the interplay between small- and large-scale circulations: a Large Eddy Simulation study.
Atmospheric Chemistry and Physics, 17, 7261-7276, doi:10.5194/acp-17-7261-2017 (access)

73. Mugume I., D. Waiswa, M. d. S. Mesquita, J. Reuder, C. Basalirwa, Y. Bamutaze, R. Twinomuhangi, F. Tumwine, J. Sansa Otim, T. Jacob Ngailo, and G. Ayesiga, 2017
Assessing the Performance of WRF Model in Simulating Rainfall over Western Uganda.
Journal of Climatology & Weather Forecasting, 5, 1, 1000197, doi:10.4172/2332-2594.1000197 (access)

72. Kumer, V., J. Reuder, and R. Eikill, 2017
Characterization of turbulence in wind turbine wakes under different stability  conditions from static Doppler LiDAR measurements.
Remote Sensing, 9, 3, 242, doi:10.3390/rs9030242 (access)

71. Pontoppidan, M., J. Reuder, S. Mayer, and E. Kolstad, 2017
Downscaling an intense precipitation event in complex terrain: The importance of high grid resolution.
Tellus A: Dynamic Meteorology and Oceanography, 69, 1, 1-15,doi:10.1080/16000870.2016.1271561 (access)

70. Cheynet, E., J. Bogunović Jakobsen, J. Snæbjörnsson, J. Reuder,  V.  Kumer, and B. Svardal, 2017
Assessing the potential of a commercial pulsed lidar for wind characterization at a bridge site.
Journal of Wind Engineering & Industrial Aerodynamics, 161, 17-26, doi:10.1016/j.jweia.2016.12.002 (access)

69. Maronga, B. and J. Reuder, 2017
On the formulation and universality of Monin-Obukhov similarity functions for mean gradients and standard deviations in the unstable surface layer: results from surface-layer resolving large-eddy simulations.
Journal of the Atmospheric Sciences, 74, 4, 989-1010,  doi:10.1175/JAS-D-16-0186.1 (access)

68. Ngailo, T., N. Shaban, J. Reuder, E. Rutalebwa, and I. Mugume, 2016
Non Homogeneous Poisson Process Modelling of Seasonal Extreme Rainfall Events in Tanzania.
International Journal of Science and Research, 5, 10, 1858-1868, doi:10.21275/ART20162322 (access)

67. Mugume, I., M. Mesquita D.S., Ch. Basalirwa, Y. Bamutaze, J. Reuder, A. Nimusiima, D. Waiswa, G. Mujuni, S. Tao, and T. Jakob Ngailo, 2016
Patterns of Dekadal Rainfall Variation over a Selected Region in Lake Victoria Basin, Uganda.
Atmosphere, 7, 11, 150, doi:10.3390/atmos7110150 (access)

66. Cheynet, E., J. Bogunovic Jakobsen, B. Svardal, J. Reuder, and V. Kumer, 2016
Wind coherence measurement by a single pulsed Doppler wind lidar.
Energy Procedia, 94, 462-477, doi:10.1016/j.egypro.2016.09.217 . (access)

65. Ngailo, T., J. Reuder, E. Rutalebwa, N. Shaban, and M. d. S. Mesquita, 2017
Modelling of Extreme maximum Rainfall using Extreme Value Theory for Tanzania.
International Journal of Scientific and Innovative Mathematical Research, 4, 3, 34-45, doi:10.20431/2347-3142.0403005 (access)

64. Reuder, J., L. Båserud, S. Kral, V. Kumer, J.-W. Wagenaar, and A. Knauer, 2016
Proof of concept for wind turbine wake investigations with the RPAS SUMO.
Energy Procedia, 94, 452-461, doi:10.1016/j.egypro.2016.09.215. (access)

63. Båserud, L., J. Reuder, M. O. Jonassen, S. T. Kral, M. Bakhoday Paskyabi, and M. Lothon, 2016
Proof of concept for turbulence measurements with the RPAS SUMO during the BLLAST campaign.
Atmospheric Measurement Techniques,  9, 4901-4913, doi:10.5194/amt-9-4901-2016. (access)

62. Kumer, V., J. Reuder, M. Dorninger, R. Zauner, and V. Grubišić, 2016
Turbulent kinetic energy estimates from profiling wind LiDAR measurements and their potential for wind energy applications.
Renewable Energy, 99, 12, 898-910, doi:10.1016/j.renene.2016.07.014 (access)

61. Cuxart, J., B. Wrenger, D. Martínez-Villagrasa, J. Reuder, M.O. Jonassen, M.A. Jiménez, M. Lothon, F. Lohou, O. Hartogensis, J. Dünnermann, L. Conangla, and A. Garai, 2016
Estimation of the advection effects induced by surface heterogeneities in the surface energy budget.
Atmospheric Chemistry and Physics, 16, 9489–9504, doi: 10.5194/acp-16-9489-2016 (access)

60. Reuder, J., L. Båserud, M. O. Jonassen, S. T. Kral, and M. Müller, 2016
Exploring the potential of the RPA system SUMO for multi-purpose boundary layer missions during the BLLAST campaign.
Atmospheric Measurement Techniques,  9, 2675-2688, doi:10.5194/amt-9-2675-2016 (access)

59. Bakhoday Paskyabi, M., J. Reuder, and M. Flügge, 2016
Automated Measurements of Whitecaps on the Ocean Surface from a Buoy-Mounted Camera.
Methods in Oceanography, 17, 14-31, doi:10.1016/j.mio.2016.05.002 (access)

58. Mugume, I., Ch. Basalirwa, D. Waiswa, J. Reuder, M. d. S. Mesquita, S. Tao, and T. Ngailo, 2016
Comparison of Parametric and Non-parametric Methods for Analyzing the Bias of a Numerical Model.
Modelling and Simulation in Engineering, Article ID 7530759, 7 pages, doi:10.1155/2016/7530759 (access)

57. Flügge, M., M. Bakhoday Paskyabi, J. Reuder, J. B. Edson, and A. J. Plueddemann, 2016
Comparison of direct covariance flux measurements from an offshore tower and a buoy.
Journal of Atmospheric and Oceanic Technology, 33, 5, 873-890, doi:10.1175/JTECH-D-15-0109.1. (access)

56. Bogunović Jakobsen, J.,  E. Cheynet, J. Snæbjörnsson, T. Mikkelsen, M. Sjöholm,  N. Angelou, P. Hansen, B. Svardal, V.  Kumer, and J. Reuder, 2015
Assessment of wind conditions at a fjord inlet by complementary use of sonic anemometers and LiDARs.
Energy Procedia, 80, 411-421, DOI: 10.1016/j.egypro.2015.11.445 (access)

55. Bakhoday Paskyabi, M., H. Bryhni, J. Reuder, and Ilker Fer, 2015
Lagrangian Measurement of Waves and Near Surface Turbulence from Acoustic Instruments.
Energy Procedia, 80, 141-150, DOI: 10.1016/j.egypro.2015.11.416 (access)

54. Kumer, V., J. Reuder, B. Svardal, C. Sætre, and P. Eecen, 2015
Characterisation of single wind turbine wakes with static and scanning WINTWEX-W LiDAR data.
Energy Procedia, 80, 245-254, DOI: 10.1016/j.egypro.2015.11.428 (access)

53. Blay–Carreras, E., E. R. Pardyjak, D. Pino, S. W. Hoch, J. Cuxart, D. Martinez, and J. Reuder, 2015
Lifted Temperature Minimum During the Atmospheric Evening Transition.
Atmospheric Chemistry and Physics, 15, 6981–6991, DOI: 10.5194/acp-15-6981-2015 (access)

52. Krogsæter, O., and J. Reuder, 2015
Validation of boundary layer parameterization schemes in the Weather Research and Forecasting Model (WRF) under the aspect of offshore wind energy applications - Part II: Boundary layer height and atmospheric stability.
Wind Energy, 18, 7, 1291-1302, DOI: 10.1002/we.1765 (access)

51. Krogsæter, O., and J. Reuder, 2015
Validation of boundary layer parameterization schemes in the Weather Research and Forecasting Model (WRF) under the aspect of offshore wind energy applications - Part I: Average wind speed and wind shear.
Wind Energy, 18, 5, 769-782, DOI: 10.1002/we.1727 (access)

50. Pietersen, H., J. Vila-Guerau de Arellano, P. Augustin, A. van de Boer, O. de Coster, H. Dalbarre, P. Durand, M. Fourmentin, B. Giolo, O. Hartogensis, M. Lothon, F. Lohou, D. Pino, H.G. Ouwersloot, and J. Reuder, 2015
Study of a prototypical convective boundary layer observed during BLLAST: contributions by large-scale forcings.
Atmospheric Chemistry and Physics, 15, 4241-4257, doi:10.5194/acp-15-4241-2015 (access)

49. Wolf, T., I. Esau, and J. Reuder, 2014
Analysis of the vertical temperature structure in the Bergen valley, Norway, and its connection to pollution episodes, and its connection to pollution episodes.
Journal of Geophysical Research, DOI: 10.1002/2014JD022085 (access)

48. Lothon, M., F. Lohou, D. Pino, F. Couvreux, E. Pardyjak, J. Reuder, J. Vila Guerau de Arellano, P. Durand, O. Hartogensis, D. Legain, P. Augustin, B. Gioli, I. Faloona, C. Yagüe, D. Alexander, W. M. Angevine, E. Bargain, J. Barrié, E. Bazile, Y. Bezombes, E. Blay-Carreras, A. van de Boer, J. L. Boichard, A. Bourdon, A. Butet, B. Campistron, O. de Coster, J. Cuxart, A. Dabas, C. Darbieu, K. Deboudt, H. Delbarre, S. Derrien, P. Flament, M. Fourmentin, A. Garai, F. Gibert, A. Graf, J. Groebner, F. Guichard, M. A. Jimenez Cortez, M. Jonassen, A. van den Kroonenbeerg, D. H. Lenschow, E. Magliulo, S. Martin, D. Martinez, L. Mastrorillo, A. F. Moene, F. Molinos, E. Moulin, H. P. Pietersen, B. Piguet, E. Pique, C. Romàn-Cascón, C. Rufin-Soler, F. Saïd, M. Sastre-Marugan, Y. Seity, G. J. Steeneveld, P. Toscano, O. Traullé, D. Tzanos, S. Wacker, N. Wildmann, and A. Zaldei, 2014
The BLLAST field experiment: Boundary-Layer Late Afternoon and Sunset Turbulence.
Atmospheric Chemistry and Physics, 14, 10931-10960, doi:10.5194/acp-14-10931-2014 (access)

47. Christakos, K, G. Varlas, J. Reuder, P. Katsafados, and A. Papadopoulos, 2014
Analysis of a Low-level Coastal Jet off the Norwegian Coast.
Energy Procedia, 53, 162-172, DOI: 10.1016/j.egypro.2014.07.225 (access)

46. Kumer, V.-M., J. Reuder, and B. R. Furevik, 2014
A comparison on LiDAR and radiosonde wind measurements.
Energy Procedia, 53, 214-220, DOI: 10.1016/j.egypro.2014.07.230 (access)

45. Båserud, L., M. Flügge, A. Bhandari, and J. Reuder, 2014
Characterization of the SUMO turbulence measurement system for
wind turbine wake assessment.
Energy Procedia, 53, 173-183, DOI: 10.1016/j.egypro.2014.07.226 (access)

44. Stenmark, A., L. R. Hole, P. Voss, J. Reuder, and M. Jonassen, 2014
The Influence of Nunataks on the Atmospheric Boundary Layer During Summer in Dronning Maud Land, Antarctica.
Journal of Geophysical Research, DOI: 10.1002/2013JD021287 (access)

43. Jonassen, M. O., H. Ólafsson, A. S. Valved, J. Reuder, and J. A. Olseth, 2013
Simulations of the Bergen orographic wind shelter.
Tellus A,  65, 19206, http://dx.doi.org/10.3402/tellusa.v65i0.19206 (access)

42. Flügge, M., and J. Reuder, 2013
Application of the NORCOWE direct covariance flux system for ship based measurements.
Energy Procedia, 35, 128-136, doi: 10.1016/j.egypro.2013.07.166 (access)

41. Bakhoday, M., M. Flügge, J. B. Edson, and J. Reuder, 2013
Wave–induce characteristics of atmospheric turbulence flux
measurements.
Energy Procedia, 35, 102-112, doi: 10.1016/j.egypro.2013.07.16 (access)

40. Christakos, K., J. Reuder, and B. Furevik, 2013
Experimental characterization of the marine atmospheric boundary layer in the Havsul area, Norway.
Energy Procedia, 35, 121-127, doi: 10.1016/j.egypro.2013.07.165 (access)

39. Jonassen, M., H. Olafsson, H. Agustsson, O. Rögnvaldsson, and J. Reuder, 2012
Improving a High Resolution Numerical Weather Simulation by Assimilating Data from an Unmanned Aerial System.
Monthly Weather Review, 140, 3734–3756, doi:10.1175/MWR-D-11-00344.1. (access)

38. Flügge, M., J. B. Edson, and J. Reuder, 2012
Sensor movement correction for direct turbulence measurements in the marine atmospheric boundary layer.
Energy Procedia, 24, 159-165. (access)

37. Reuder, J., and M. Jonassen, 2012
First results of turbulence measurements in a wind park with the Small Unmanned Meteorological Observer SUMO.
Energy Procedia, 24, 176-185. (access)

36. Jocher, G., F. Karner, C. Ritter, R. Neuber,  K. Dethloff, F. Obleitner, J. Reuder, and T. Foken, 2012
The Near-Surface Small-Scale Spatial and Temporal Variability of Sensible and Latent Heat Exchange in the Svalbard Region: A Case Study.
ISRN Meteorology, Volume 2012, Article ID 357925, doi:10.5402/2012/357925. (access)

35. Reuder, J., M. Jonassen, and H. Olafsson, 2012
The Small Unmanned Meteorological Observer SUMO: Recent developments and applications of a micro-UAS for atmospheric boundary layer research.
Acta Geophysica, 60, 5, 1454-1473, DOI: 10.2478/s11600-012-0042-8. (access)

34. Wirth, V., M. Kristen, M. Leschner, J. Reuder, and J. Schween, 2012
Bannerclouds observed at Mount Zugspitze.
Atmospheric Chemistry and Physics, 12, 3611-3625, doi:10.5194/acp-12-3611-2012. (access)

33. Mayer, S., M. Jonassen, A. Sandvik, and J. Reuder, 2012
Investigations on the stable atmospheric boundary layer based on UAS profile measurements and WRF model simulations
Boundary-Layer Meteorology, 143, 3, 507-526, DOI 10.1007/s10546-012-9709-6. (access)

32. Mayer, S., G. Hattenenberger, P. Brisset, M. Jonassen, and J. Reuder, 2012
A 'no-flow-sensor' wind estimation algorithm for Unmanned Aerial Systems
International Journal of Micro Air Vehicles, 4, 1, 15-30. (access)

31. Jonassen, M., H. Olafsson, J. Reuder, and J. Olseth, 2012
Multi-scale variability of winds in the complex topography of Southwestern Norway.
Tellus A, 64, 11962, DOI: 10.3402/tellusa.v64i0.11962. (access)

30. Reuder, J., M. Ablinger, H. Agustsson, P. Brisset, S. Brynjolfsson, M. Garhammer, T. Johannesson, M. O. Jonassen, R. Kühnel, S. Lämmlein, T. de Lange, C. Lindenberg, S. Malardel, S. Mayer, M. Müller, H. Olafsson, O. Rögnvaldsson, W. Schäper, T. Spengler, G. Zängl, and J. Egger, 2012
FLOHOF 2007: An overview of the mesoscale meteorological field campaign at Hofsjökull, Central Iceland.
Meteorology and Atmospheric Physics, 116, 1-13, DOI: 10.1007/s00703-010-0118-4. (access)

29. Mayer, S., A. Sandvik, M. Jonassen, and J. Reuder, 2012
Atmospheric profiling with the UAS SUMO: a new perspective for the evaluation of fine-scale atmospheric models.
Meteorology and Atmospheric Physics, 116, 15-26, DOI10.1007/s00703-010-0063-2. (access)

28. Kristjánsson, J.E., I. Barstad, T. Aspelien, I. Føre, Ø. Godøy, Ø. Hov, E. Irvine, T. Iversen, E. Kolstad, T.E. Nordeng, H. McInnes, R. Randriamampianina, J. Reuder, Ø. Saetra, M. Shapiro, T. Spengler, and H. Ólafsson, 2011
The Norwegian IPY-THORPEX: Polar Lows and Arctic Fronts during the 2008 Andøya campaign.
Bulletin of the American Meteorological Society, 92, 11, 1443-1466. (access)

27. Reuder, J., P. Brisset, M. Jonassen, M. Müller, and S. Mayer, 2009
The Small Unmanned Meteorological Observer SUMO: A new tool for atmospheric boundary layer research.
Meteorologische Zeitschrift,
18, 2, 141-147. (access)

26. Medhaug, I., J.A. Olseth, and J. Reuder, 2009
UV radiation and skin cancer in Norway.
Journal of Photochemistry and Photobiology: B Biology, 96, 232-241. (access)

25. Reuder, J., P. Brisset, M. Jonassen, M. Müller, and S. Mayer, 2008
SUMO: A Small Unmanned Meteorological Observer for atmospheric boundary layer research.
Earth and Environmental Sciences, 1, doi:10.1088/1755-1307/1/1/012014, 10p. (access)

24. Reuder, J. G. O. Fagerlid, I. Barstad, A. Sandvik, 2007
Stord Orographic Precipitation Experiment(STOPEX): an overview of phase I
Advances in Geoscience, 10, 17–23, DOI: www.adv-geosci.net/10/17/2007/ (access)

23. Schween, J. H., J. Kuettner, D. Reinert, J. Reuder, and V. Wirth, 2007
Definition of "banner clouds" based on time lapse movies.
Atmospheric Chemistry and Physics, 7, 2047-2055. (access)

22. Reuder, J., F. Ghezzi, E. Palenque, R. Torrez, M. Andrade, and F. Zaratti, 2007
Investigations on the effect of high surface albedo on erythemally effective UV irradiance: Results of a campaign at the Salar de Uyuni, Bolivia.
Jornal of Photochemistry and Photobiology B: Biology, 87, 1-8. (access)

21. Reuder, J., and J. Egger, 2006
Diurnal circulation of the Bolivian Altiplano: Observations in a valley and at a pass.
Tellus A, 58, 2, 254-262. (access)

20. Pfeifer, M., P. Koepke, and J. Reuder, 2006
Effects of altitude and aerosols on UV radiation.
Journal of Geophysical Research, DOI 10.1029/2005JD006444. (access)

19. Wagner, F., and J. Reuder, 2005
Cloud frequency with respect to remote sensing applications: Example of Bavaria, Southern Germany.
International Journal of Remote Sensing, 26, 21, 4733-4745. (access)

18. Egger, J., L. Blacutt, F. Ghezzi, R. Heinrich, P. Kolb, S. Lämmlein, M. Leeb, S. Meyer, E. Palenque, J. Reuder, W. Schäper, J. Schween, R. Torrez, and F. Zaratti, 2005
Diurnal circulation of the Bolivian Altiplano. Part I: Observations.
Monthly Weather Review, 133, 4, 911-924. (access)

17. Reuder, J., and P. Koepke, 2005
Reconstruction of UV radiation over Southern Germany for the past decades.
Meteorologische Zeitschrift, 14, 2, 237-246. (access)

16. Oppenrieder, A., P. Hoeppe, P. Koepke, and J. Reuder, 2005
Long term measured mean UV irradiance conditions for inclined surfaces and its visualization with respect to the surface of the human body.
Meteorologische Zeitschrift, 14, 2, 285-290. (access)

15. Seefeldner, M., A. Oppenrieder, D. Rabus, J. Reuder, M. Schreier, P. Hoeppe, and P. Koepke, 2004
A two-axis tracking system with data logger.
Journal of Atmospheric and Oceanic Technology, 21, 6, 975-979. (access)

14. Hoeppe, P., A. Oppenrieder, C. Erianto, P. Koepke, J. Reuder, M. Seefeldner, and D. Nowak, 2004
Visualization of UV-exposure of the human body based on data from a scanning UV-measuring system.
International Journal of Biometeorology, 49, 1, 18-25. (access)

13. Oppenrieder, A., P. Hoeppe, P. Koepke, J. Reuder, J. Schween, and J. Schreder, 2003
Simplified calibration for broadband solar ultraviolet measurements.
Photochemistry and Photobiology, 78, 6, 603-606. (access)

12. Koepke, P., J. Reuder, and H. Schwander, 2002
Solar UV radiation and its variability due to the atmospheric components,
Recent Research Developments in Photochemistry and Photobiology, Vol. 6, 11-34.

11. Junkermann, W., C. Brühl, D. Perner, E. Eckstein, T. Trautmann, B. Früh, R. Dlugi, T. Gori, A. Ruggaber, J. Reuder, M. Zelger, A. Hofzumahaus, A. Kraus, F. Rohrer, D. Brüning, G. Moortgat, A. Horowitz, and J. Tadic, 2002
Actinic radiation and photolysis processes in the lower troposphere: Effect of clouds and aerosols.
Journal of Atmospheric Chemistry, 42, 413-441. (access)

10. Egger, J., S. Bajarachaya, R. Heinrich, P. Kolb, S. Lämmlein, M. Mech, J. Reuder, W. Schäper, P. Shayka, J. Schween, and H. Wendt, 2002
Diurnal winds in the Himalayan Kali Gandaki Valley. Part III : Remotely piloted aircraft soundings.
Monthly Weather Review, 130, 8, 2042-2058. (access)

9. Fabian, P., B. Rappenglück, A. Stohl, H. Werner, M. Winterhalter, H. Schlager, P. Stock, H. Berresheim, U. Kaminski, P. Koepke, J. Reuder, and W. Birmili, 2001
Boundary layer photochemistry during a total solar eclipse.
Meteorologische Zeitschrift, N.F. 10, 3, 187-192. (access)

8. Koepke, P., J. Reuder, and J. Schween, 2001
Spectral variation of the solar radiation during an eclipse.
Meteorologische Zeitschrift, N.F. 10, 3, 179-186. (access)

7. Reuder, J., P. Koepke, and M. Dameris, 2001
Future UV radiation in Central Europe modelled from ozone scenarios.
Journal of Photochemistry and Photobiology, B., 61, 3, 94-105. (access)

6. Egger, J., S. Bajarachaya, U. Egger, R. Heinrich, J. Reuder, P. Shayka, H. Wendt, and V. Wirth, 2000
Diurnal winds in the Himalayan Kali Gandaki Valley. Part I : Observations.
Monthly Weather Review, 128, 4, 1106-1122. (access)

5. Reuder, J., and H.Schwander, 1999
Aerosol effects on UV radiation in nonurban regions.
Journal of Geophysical Research, 104, D4, 4065-4078. (access)

4. Zelger, M., J. Schween, J. Reuder, T. Gori, K. Simmerl, and R.Dlugi, 1997
Turbulent transport, characteristic length and time scales above and within the BEMA forest site at Castelporziano.
Atmospheric Environment, 31, 217-227. (access)

3. Seiler, T., J. Reuder, F. Beyrich, H. Feldmann, 1996
Meteorological conditions during SANA 1 (Eisdorf) and SANA 2 (Melpitz).
Meteorologische Zeitschrift, N.F., 5, 181-192. (access)

2. Reuder, J., T. Gori, L. Kins, R. Dlugi, 1996
Determination of photolysis frequencies of ozone and nitrogen dioxide during SANA 2: The influence of tropospheric aerosol particles.
Meteorologische Zeitschrift, N.F., 5, 234-244. (access)

1. Reuder, J., H. Escher-Vetter and L. Kins, 1993
Ozone concentrations and photolysis frequencies: Results of an experiment at a high Alpine station (Pegelstation Vernagtbach/Oetztal Alps).
Zeitschrift für Gletscherkunde und Glazialgeologie, 29, 2, 119-132.

 

Published data sets

Kral, S., J. Reuder, S. R. Hudson, and L. Cohen, 2017
N-ICE2015 sodar wind data [Data set].
Norwegian Polar Institute. https://doi.org/10.21334/npolar.2017.79e05d20 (access)

 

Selected Conference Proceedings

Bogunović Jakobsen, J., E. Cheynet, J. Snæbjörnsson, T. Mikkelsen, M. Sjöholm, N. Angelou, P. Hansen, J. Mann, B. Svardal, V. Kumer, and J. Reuder, 2015
Application of lidars for assessment of wind conditions on a bridge site.
14th International Conference on Wind Engineering – Porto Alegre, Brazil – June 21-26, 2015, 10 pp.

 

Selected reports

Lange, M. and J. Reuder (eds.), 2013
UAS report. COST Action ES0802 - Unmanned Aerial Systems in Atmospheric Research, Research Media Ltd, 24 pp. (pdf)

Giebel, G., U. Schmidt Paulsen, J. Bange, A. la Cour-Harbo, J. Reuder, S. Mayer, A. van der Kroonenberg, and J. Mølgaard, 2012
Autonomous Aerial Sensors for Wind Power Meteorology - A Pre-Project.
Final project report, Risø-R-1798(EN), ISSN 0106-2840, ISBN 978-87-550-3945-2, 90pp. (access)

 

 

 

Education

  • Dr. rer. nat., Technical University Cottbus (BTU), Germany, 1999
    Title of thesis (in German): "Untersuchungen zur Variabilität von Photolysefrequenzen/Investigations on the variability of photolysis frequencies"
  • Diploma (corresponding to MSc) in Meteorology, University of Munich (LMU), 1991
    Title of thesis (in German): "Experimentelle Untersuchungen zum Einfluss atmosphärischer Parameter auf die Photolyse von Ozon in der bodennahen Troposphäre"

Employment record

  • October 2008 – present: Professor in Experimental Meteorology, Geophysical Institute, University of Bergen, Norway
  • September 2009 – December 2012: Scientific advisor (20% position) at CMR Instrumentation; Bergen Norway
  • March 2005 – September 2008: Associate Professor in Experimental Meteorology, Geophysical Institute, University of Bergen, Norway
  • November 2000 – February 2005: Assistant Professor, Research Group for Atmospheric Radiation and Remote Sensing, Meteorological Institute, University of Munich, Germany
  • May/June 2000: Visiting Scientist, Laboratory of Atmospheric Physics (LFA), University Mayor San Andres (UMSA), La Paz, Bolivia
  • November 1999-October 2000: Postdoctoral Research Associate, Research Group for Atmospheric Radiation and Remote Sensing, Meteorological Institute, University of Munich, Germany
  • May-October 1999: Postdoctoral Research Scientist, German Radiation Protection Agency (Bundesamt für Strahlenschutz), Neuherberg,Germany
  • January 1998-April 1999: Research Scientist, Research Group for Atmospheric Radiation and Remote Sensing, Meteorological Institute, University of Munich, Germany
  • January-October 1993: Part time employment as media forecast meteorologist, Meteo Consult Wetter und Klimaberatung GmbH, Ingelheim, Germany
  • October 1991-December 1997: Research Scientist, Research Group for Atmospheric Chemistry and Surface Exchange Processes, Meteorological Institute, University of Munich, Germany

Leadership position

  • Deputy Head of the Geophysical Institute, University of Bergen; 2011-2019
  • Leader of Work Package 5 “Common Themes” in the Center for Environmentally-friendly Energy Research (CEER) NORCOWE (Norwegian Center for Offshore Wind Energy); 2009-2016
  • Project manager of the joint national infrastructure program for offshore wind energy in cooperation of the CEERs NORCOWE and NOWITECH; start in 2009
  • Chair of the European COST Action ES0802 “Unmanned aerial systems (UAS) in atmospheric research”; 2008-2012
  • Leader of the Expert Working group “Unmanned aerial systems” in the European Research Infrastructure Project EUFAR (European Fleet for Airborne Research); 2009-
  • Co-leader of TOR8 “Support the use of UAS vehicle activity for science observations in civil and restricted airspace on an international basis and engage the ICAO“, International Society for Photogrammetry and Remote Sensing, Commission I, Working Group I/1 “Standardization of Airborne Platform Interface”; 2009-

Committee work

  • member of the Steering Committee (institutsrådet) of the Geophysical Institute (autumn 2005 – summer 2009)
  • member of the Research Programme Committee (forskerutdanningsutvalget) at the Faculty for Mathematics and  Natural Sciences (January 2007-present)
  • leader of the Research Programme Committee (forskerutdanningsutvalget) at the Geophysical Institute (June 2007-present)
  • member of the Sudan Committee; Faculty for Mathematics and  Natural Sciences (summer 2006-present)
  • member of the Cooperation Committee (sammarbeidsutvalget) between the University of Bergen and the Norwegian Centre for Space-related Education (NAROM)

 

Research groups