Real-time onboard wind and windshear determination,part 2: Detection |
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| Authors: | A. Miele T. Wang W. W. Melvin |
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| Affiliation: | (1) Aero-Astronautics Group, Rice University, Houston, Texas;(2) Delta Airlines, Altanta, Georgia;(3) Airworthiness and Performance Committee, Air Line Pilots Association, Washington, DC |
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| Abstract: | This paper is concerned with windshear detection in connection with real-time wind identification (Ref. 1). It presents a comparative evaluation of two techniques, one based on the shear/downdraft factor and one based on the wind difference index. The comparison is done with reference to a particular microburst, that which caused the 1985 crash of Flight Delta 191 at Dallas-Fort Worth International Airport.The shear/downdraft factor has the merit of combining the effects of the shear and the downdraft into a single entity. However, its effectiveness is hampered by the fact that, in a real situation, the windshear is accompanied by free-stream turbulence, which tends to blur the resulting signal. In turn, this results in undesirable nuisance warnings if the magnitude of the shear factor due to free-stream turbulence is temporarily larger than that due to true windshear. Therefore, proper filtering is necessary prior to using the shear/downdraft factor in detection and guidance. One effective way for achieving this goal is to average the shear/downdraft factor over a specified time interval  . The effect of on the average shear/downdraft factor is studied. |
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| Keywords: | Wind identification real-time wind identification wind-shear detection windshear detection systems windshear problems shear/downdraft factor average shear/downdraft factor wind difference index take-off abort landing penetration landing |
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