In-flight remote sensing and identification of gusts, turbulence, and wake vortices using a Doppler LIDAR-Reference-Cited by-同舟云学术

In-flight remote sensing and identification of gusts, turbulence, and wake vortices using a Doppler LIDAR

Published:2017-03-21 Issue:2 Volume:8 Page:313-333
ISSN:1869-5582
Container-title:CEAS Aeronautical Journal
language:en
Short-container-title:CEAS Aeronaut J

Author:

Fezans N.,Schwithal J.,Fischenberg D.

Funder

Cleansky

Publisher

Springer Science and Business Media LLC

Subject

Aerospace Engineering,Transportation

Link

http://link.springer.com/content/pdf/10.1007/s13272-017-0240-9.pdf

Reference45 articles.

1. Ehlers, J., Fezans, N.: Airborne Doppler LiDAR sensor parameter analysis for wake vortex impact alleviation purposes. In: Bordeneuve-Guibé J, Drouin A, Roos C (eds.) Advances in aerospace guidance, navigation and control, pp 433–453. Springer, Toulouse (2015) (ISBN 978-3-319-17517-1)

2. Fezans, N.: An Unusual Structure for a Feedforward Gust Load Alleviation Controller, Submitted to the 2017 CEAS EuroGNC conference, 25–27 April 2017, Warsaw, Poland

3. Fezans, N., Joos, H.-D., Combined Feedback and LIDAR-based Feedforward Active Load Alleviation, Submitted to the 2017 AIAA Aviation/Atmospheric Flight Mechanics conference, 5 - 9 June 2017, Denver, Colorado, USA

4. Cézard, N., Besson, C., Dolfi-Bouteyre, A., Lombard, L.: Airflow characterization by Rayleigh-Mie Lidars. AerospaceLab 1, 1–4 (2009)

5. Hill, C., Harris, M.: Lidar measurement report, Technical report: Remote Sensing (UpWind WP6) – QinetiQ Lidar Measurement Report, Sept. 2010 (QINETIQ/TS/FPPS/TR0900813)

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