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21 November 1996 Coherent lidar turbulence measurement for gust load alleviation
David C. Soreide, Rodney K. Bogue, L. J. Ehernberger, Harold R. Bagley
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Proceedings Volume 2832, Optical Instruments for Weather Forecasting; (1996) https://doi.org/10.1117/12.258887
Event: SPIE's 1996 International Symposium on Optical Science, Engineering, and Instrumentation, 1996, Denver, CO, United States
Abstract
Atmospheric turbulence adversely affects operation of commercial and military aircraft and is a design constraint. The airplane structure must be designed to survive the loads imposed by turbulence. Reducing these loads allows the airplane structure to be lighter, a substantial advantage for a commercial airplane. Gust alleviation systems based on accelerometers mounted in the airplane can reduce the maximum gust loads by a small fraction. These systems still represent an economic advantage. The ability to reduce the gust load increases tremendously if the turbulent gust can be measured before the airplane encounters it. A lidar system can make measurements of turbulent gusts ahead of the airplane, and the NASA Airborne Coherent Lidar for Advanced In-Flight Measurements (ACLAIM) program is developing such a lidar. The ACLAIM program is intended to develop a prototype lidar system for use in feasibility testing of gust load alleviation systems and other airborne lidar applications, to define applications of lidar with the potential for improving airplane performance, and to determine the feasibility and benefits of these applications. This paper gives an overview of the ACLAIM program, describes the lidar architecture for a gust alleviation system, and describes the prototype ACLAIM lidar system.
© (1996) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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David C. Soreide, Rodney K. Bogue, L. J. Ehernberger, and Harold R. Bagley "Coherent lidar turbulence measurement for gust load alleviation", Proc. SPIE 2832, Optical Instruments for Weather Forecasting, (21 November 1996); https://doi.org/10.1117/12.258887
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KEYWORDS
LIDAR
Velocity measurements
Backscatter
Control systems
Oscillators
Signal processing
Turbulence
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