Control of aircraft landing approach in wind shearWind and wind shear components are estimated and used for controlling an externally-blown flap STOL aircraft and a B-727 during landing approach under the JAWS microburst profile. A combination of feedforward and feedback concepts is used. The objective is tracking of airspeed and glide slope. Both an asymptotic disturbance rejection scheme, which is equivalent to MIMO zero assignment, and a linear quadratic scheme prove to be successful. Higher angle-of-attack is used only after thrust saturation. Downdraft is found to be more difficult to counter for STOL aircraft than is horizontal wind shear. A third design formulation based on successive loop closure is also presented. A 'Wind Shear Penetration Index' is described, which offers a simple and quantitative evaluation of an aircraft's ability to safely penetrate a wind shear. This index is particularly useful if used with Doppler radars.
Document ID
19870037720
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Chu, Peter Yaohwa (Ford Aerospace and Communication Corp. Palo Alto, CA, United States)
Bryson, Arthur E., Jr. (Stanford University CA, United States)