Coherent Doppler Wind Lidars in a Turbulent Atmosphere
Coherent Doppler Wind Lidars in a Turbulent Atmosphere

Author: Viktor Banakh

Publisher: Artech House

Published: 2013-09-01

Total Pages: 277

ISBN-13: 1608076679

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Radiophysical tools for measuring atmospheric dynamics include sodars, Doppler radars, and Doppler lidars. Among these, coherent Doppler lidars (CDLs) have been considered the best for remote measurement of wind turbulence. This is important not only for understanding the exchange processes in the boundary layer, but also in the applied aspect, such as aviation safety. CDLs significantly extend possibilities of experimental investigation of not only wind turbulence, but also coherent structures such as aircraft wake vortices. The authors of this book conducted field tests of the developed methods of lidar measurements of the wind velocity, atmospheric turbulence parameters, and aircraft wake vortices. This valuable resource, containing over 500 equations based on original results from the authors’ work, gives professionals a comprehensive description of the operating principles of continuous wave and pulsed coherent Doppler lidars. This book studies the possibilities of obtaining information about wind turbulence from data measured by continuous wave and pulsed CDLs. The procedures for estimation are described, as well as algorithms for numerical simulation. Results on the vortex behavior and evolution are then presented.

Analysis of Measurements for Solid State Laser Remote Lidar System
Analysis of Measurements for Solid State Laser Remote Lidar System

Author: National Aeronautics and Space Administration (NASA)

Publisher: Createspace Independent Publishing Platform

Published: 2018-07-08

Total Pages: 60

ISBN-13: 9781722234393

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The merits of using lidar systems for remote measurements of various atmospheric processes such as wind, turbulence, moisture, and aerosol concentration are widely recognized. Although the lidar technology has progressed considerably over the past two decades, significant research particularly in the area of solid state lidars remains to be conducted in order to fully exploit this technology. The work performed by the UAH (University of Alabama in Huntsville) personnel under this Delivery Order concentrated on analyses of measurements required in support of solid state laser remote sensing lidar systems which are to be designed, deployed, and used to measure atmospheric processes and constituents. UAH personnel has studied and recommended to NASA/MSFC the requirements of the optical systems needed to characterize the detection devices suitable for solid state wavelengths and to evaluate various heterodyne detection schemes. The 2-micron solid state laser technology was investigated and several preliminary laser designs were developed and their performance for remote sensing of atmospheric winds and clouds from a spaceborne platform were specified. In addition to the laser source and the detector, the other critical technologies necessary for global wind measurements by a spaceborne solid state coherent lidar systems were identified to be developed and demonstrated. As part of this work, an analysis was performed to determine the atmospheric wind velocity estimation accuracy using the line-of-sight measurements of a scanning coherent lidar. Under this delivery order, a computer database of materials related to the theory, development, testing, and operation of lidar systems was developed to serve as a source of information for lidar research and development. Amzajerdian, Farzin Unspecified Center...

Analyses of Coherent Lidar Wind Measurement Missions
Analyses of Coherent Lidar Wind Measurement Missions

Author: National Aeronautics and Space Administration (NASA)

Publisher: Createspace Independent Publishing Platform

Published: 2018-06-30

Total Pages: 46

ISBN-13: 9781722080655

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Activities carried out during this reporting period are summarized. Much of the work undertaken involved additions to the space-based coherent lidar model, including the addition of performance as a function of altitude; a receiver design section; the development of a simple orbit model suitable for use in plotting orbits, swath and shot patterns and estimating power availability; and the inclusion of Fascode derived atmospheric extinction. Assistance was also given to NASA MSFC in the design and analysis of lidar instruments, both for the AEOLUS conceptual designs within MSFC (one such analysis is included in an appendix) and of proposed NASA MSFC instruments for the New Millennium Program. Spiers, Gary D. Marshall Space Flight Center NAS8-38609...

Design and Development of a Coherent Detection Rayleigh Doppler Lidar System for Use as an Alternative Velocimetry Technique in Wind Tunnels
Design and Development of a Coherent Detection Rayleigh Doppler Lidar System for Use as an Alternative Velocimetry Technique in Wind Tunnels

Author: Samuel Adams Barnhart

Publisher:

Published: 2020

Total Pages: 89

ISBN-13:

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Velocity measurement inside of a wind tunnel is an extremely useful quantitative data for a multitude of reasons. One major reason is that velocity has a mathematical relationship with dynamic pressure which in turn influences all the aerodynamic forces on the test model. Many devices and methods exist for measuring velocity inside wind tunnels. At the same time, Doppler wind lidar (light detection and ranging) has been used for decades to make air speed measurements outdoors at long ranges. Lidar has been proven effective for many applications, and it has the potential to solve many of the problems faced by current velocimetry techniques inside wind tunnels. Despite this, minimal research has been performed with Doppler wind lidars inside wind tunnels. While multiple commercial systems exist for making air speed measurements at longer ranges, there are currently no widely available commercial devices designed to work well inside wind tunnels. In this research, initial work is described for the design and development of a continuous wave (CW), coherent wind lidar system. The system is for use as an alternative non-intrusive velocimetry method inside wind tunnels relying on the Doppler effect. A scaled down wind lidar designed to operate at much shorter ranges than current commercial wind lidars can be simpler, less expensive, and require less power. A first iteration of the design was constructed for proof of concept testing with a small-scale wind tunnel at low speeds (7.5-9 m/s). Testing showed that the lidar system could take one-dimensional speed measurements of seeded flow that closely matched Pitot static tube data. When not adding tracer particles to the flow, the lidar return signal was not strong enough for the photodetector used to measure the beat frequency. This research is focused on the process for designing the Doppler wind lidar system, constructing the experimental setup, and studying methods for data analysis. Results of testing presented in the paper and lessons learned were used to create a second iteration of the wind lidar design that can be built for future testing. Not all data analysis methods and experiments described herein were successful, but this documentation will be helpful to future researchers for improving the design and continuing to make progress on a much needed device for wind tunnel velocimetry.

Optimizing Dual-Doppler Lidar Measurements of Surface Layer Coherent Structures with Large-Eddy Simulations
Optimizing Dual-Doppler Lidar Measurements of Surface Layer Coherent Structures with Large-Eddy Simulations

Author: Stawiarski, Christina

Publisher: KIT Scientific Publishing

Published: 2014-07-10

Total Pages: 262

ISBN-13: 373150197X

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Coherent structures are patterns in the wind field of the atmospheric boundary layer. The deployment of two scanning Doppler lidars facilitates the measurement of the horizontal wind field, but the inherent averaging processes complicate an interpretation of the results. To assess the suitability of this technique for coherent structure detection large-eddy simulations are used as a basis for virtual measurements, and the effects of the lidar technique on the wind field structure are analyzed.

Coherent Lidar System for High Resolution Measurement of Atmospheric Wind Velocity and Water Vapor Fields
Coherent Lidar System for High Resolution Measurement of Atmospheric Wind Velocity and Water Vapor Fields

Author:

Publisher:

Published: 1992

Total Pages: 68

ISBN-13:

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The objective of this study is to evaluate the capability for a scanning coherent pulsed laser to acquire high resolution, time dependent mapping of the three dimensional structure of wind velocity and water vapor in the turbulent boundary layer. Power, pulse length, prf, and sampling requirements have been established that will permit achievement of 25 to 50 meter 3D spatial resolution with better than 1 meter/second velocity resolution throughout a 3 cubic kilometer volume of boundary layer in a 5 second update time using near term 1 or 2 micron laser systems. Signal processing techniques are outlined (and demonstrated with simulations) that can merge line-of-sight wind component measurements from a single station laser radar with multi- dimensional boundary layer dynamic models to retrieve the full vector wind field. Simultaneous DIAL measurements (at 2 microns laser wavelength) can be used to measure large scale water vapor fluctuations. A correlation technique to infer small scale water vapor fluctuations fields from observations of the more readily detected fluctuations of backscatter intensity is proposed. Data taken with two available scanning lidars (1 and 2 microns wavelength) is presented to demonstrate the spatial resolutions achievable. A program for implementing a full 3D demonstration measurement is outlined.