![]() ![]() Köpp, “Characterization of aircraft wake vortices by airborne coherent doppler lidar,” J. Higgins, “An all-fiber, modular, compact wind lidar for wind sensing and wake vortex applications,” Proc. Banakh, “Estimation of aircraft wake vortex parameters from data measured with a 1.5-µm coherent doppler lidar,” Opt. Rahm, “Method of radial velocities for the estimation of aircraft wake vortex parameters from data measured by coherent doppler lidar,” Opt. Lai, “Estimates of the initial vortex separation distance, b0, of commercial aircraft from pulsed lidar data,” 51st AIAA Aerosp. Rahm, “Lidar investigations of the effects of wind and atmospheric turbulence on an aircraft wake vortex,” Atmos. ![]() Macq, “Pulsed 1.5-µm lidar for axial aircraft wake vortex detection based on high-brightness large-core fiber amplifier,” IEEE J. Sharman, “Maximum likelihood estimates of vortex parameters from simulated coherent doppler lidar data,” J. ![]() Dolfi-Bouteyre, “Strategies for circulation evaluation of aircraft wake vortices measured by lidar,” J. Redfern, “Simulation of wake vortex detection with airborne doppler lidar,” J. Huffaker, “Windshear, turbulence, and wake vortex characterization using pulsed solid state coherent lidar,” Proc. Köpp, “Doppler lidar investigation of wake vortex transport between closely spaced parallel runways,” AIAA J. Marks, “Operationalizing flight formations for aerodynamic benefits,” AIAA Scitech Forum (2020).į. Innocenti, “Autonomous formation flight,” IEEE Control Syst. Kroo, “Aerodynamic performance of extended formation flight,” J. Vives, “Lidar Wind Speed Measurements From a Rotating Spinner,” Proceedings online European Wind Energy Association (2010). Dervieux, “Turbulence Modeling Challenges in Airship CFD Studies,” Monografias del Seminario Matematico Garcia de Galdeano 31, 545–554 (2004). Macq, “Aircraft Wake Vortex Study and Characterization with 1.5 µm Fiber Doppler Lidar,” J. Smalikho, “Characterization of aircraft wake vortices by 2-µm pulsed doppler lidar,” J. Cariou, “Wake vortex detection and monitoring,” Aerosp. Bowles, “Coherent lidar airborne windshear sensor: performance evaluation,” Appl. Sharman, “Measurements of boundary layer profiles in an urban environment,” J. Jan, “Digital simulation of random processes and its applications,” J. Alain, “A fast atmospheric turbulent parameters estimation using particle filtering. Cornman, “Coherent doppler lidar signal spectrum with wind turbulence,” Appl. Frehlich, “Effects of wind turbulence on coherent doppler lidar performance,” J. Healy, “Doppler lidar measurement of profiles of turbulence and momentum flux,” J.
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