Open Access
EPJ Web Conf.
Volume 176, 2018
The 28th International Laser Radar Conference (ILRC 28)
Article Number 02011
Number of page(s) 4
Section Spaceborne-Airborne lidar missions
Published online 13 April 2018
  1. World Meteorological Organisation, 2016: Statements of Guidance for Global NWP. available from [Google Scholar]
  2. European Space Agency, 2008: ADM-Aeolus Science Report, ESA SP-1311. [Google Scholar]
  3. Reitebuch, O., 2012: The space-borne wind lidar mission ADM-Aeolus, Atmospheric Physics – Background, Methods, Trends. in U. Schumann (Ed.) Springer Series on Research Topics in Aerospace, pp. 815-827. [CrossRef] [Google Scholar]
  4. Marksteiner, U., 2013: Airborne wind lidar observations for the validation of the ADMAeolus instrument, PhD Thesis, Technische Universität München, DLR Forschungsbericht 2013-25, ISSN 1434-8454, 176 p. [Google Scholar]
  5. Marksteiner, U., Reitebuch, O., Rahm, S., Nikolaus, I., Lemmerz, C., & Witschas, B., 2011: Airborne direct-detection and coherent wind lidar measurements along the east coast of Greenland in 2009 supporting ESA’s Aeolus mission, Proc. of SPIE Europe Int. Symposium Remote Sensing, Prague, Czech republic, 8182, 81820J, 1-8. [Google Scholar]
  6. Reitebuch O., Lemmerz, C., Nagel E., Paffrath U., Durand Y., Endemann M., Fabré F., Chaloupy M., 2009: The Airborne Demonstrator for the Direct-Detection Doppler Wind Lidar ALADIN on ADMAeolus. Part I: Instrument Design and Comparison to Satellite Instrument. J. Atmos. Ocean. Tech. 26, 2501-2515. [Google Scholar]
  7. Reitebuch, O., Lemmerz, C., Marksteiner, U., Rahm, S., Schäfler, A., Witschas, B., Emmitt, G.D., Greco, S., Kavaya, M.J., Gentry, B., Neely III, R.R., Schüttemeyer, D., 2016: Airborne wind lidar observations in the North Atlantic for preparation of the ADM-Aeolus validation. Proc. 18th Coherent Laser Radar Conference CLRC, Boulder, USA, June 27 – July 1, 2016. [Google Scholar]
  8. Weissmann M., Busen R., Dörnbrack A., Rahm S., Reitebuch O., 2005: Targeted Observations with an Airborne Wind Lidar, J. Atmos. Oceanic Technol. 22, 1706-1719. [Google Scholar]
  9. Kavaya, M.J., Beyon, J.Y., Koch, G.J., Petros, M., Petzar, P.J., Singh, U.N., Trieu, B.C. & Yu, J., 2014: The Doppler Aerosol Wind (DAWN) Airborne, Wind-Profiling Coherent-Detection Lidar System: Overview and Preliminary Flight Results.” J. Atmos. Oceanic Tech., 31, 826-842. [CrossRef] [Google Scholar]
  10. Gentry B., Chen, H., Cervantes, J., Machan, R., Reed, D., Cargo, R., Marx, C. & Jordan, P., 2011: Airborne Testing of the TWiLiTE Direct Detection Doppler Lidar. Proc. 16th Coherent Laser Radar Conference, Long Beach, California, USA. [Google Scholar]
  11. Yankee Environmental System, 2016: [Google Scholar]
  12. Shupe M.D., Turner, D.D., Walden, V.P., Bennartz, R., Cadeddu, M.P., Castellani, B.B., Cox, C.J., Hudak, D.R., Kulie, M.S., Miller, N.B., Neely III, R.R., Neff, W.D. & Rowe, P.M., 2013: High and Dry: New Observations of Tropospheric and Cloud Properties above the Greenland Ice Sheet. Bull. Am. Meteor. Soc., 2, 169-186. [CrossRef] [Google Scholar]

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