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Unsteady aerodynamic modelling for aircraft lateral parameter estimation

Published online by Cambridge University Press:  04 July 2016

J. Singh
Affiliation:
Department of Aerospace EngineeringIndian Institute of Technology, Kanpur
S. C. Raisinghani
Affiliation:
Department of Aerospace EngineeringIndian Institute of Technology, Kanpur

Summary

A mathematical model of unsteady aerodynamic effects for use in lateral aircraft dynamics has been proposed based on Weissinger’s arrangement of trailing vortex system. The suggested model is shown to be suitable for use in parameter extraction algorithm. Simulated flight data of an example airplane has been analysed through maximum likelihood parameter estimation algorithm in frequency-domain to show the effect of inclusion and omission of unsteady aerodynamics on estimated parameters.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1991 

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References

1. Queijo, M. J., Wells, W. R. and Keskar, D. A. Approximate Indicial Lift Function for Tapered Swept Wings in Incompress ible Flow. NASA TP-1241, 1978.Google Scholar
2. Queijo, M. J., Wells, W. R. and Keskar, D. A. Inclusion of Unsteady Aerodynamics in Longitudinal Parameter Estimation from Flight Data. NASA Tech. TP-1536, 1979.Google Scholar
3. Raisinghani, S. C. and Ghosh, A. K. Parameter Estimation of an Augmented Airplane with Unsteady Aerodynamic Modelling, 17th Int. Symp. on Space Tech. and Science, May 20th-25th, 1990, Tokyo, Japan.Google Scholar
4. Wells, W. R., Banda, S. and Quam, D. L. Aircraft Lateral Parameter Estimation from Flight Data with Unsteady Aerody namic Modelling, 19th AIAA Aerospace Sciences Meeting, St. Louis, Mo., January 12th-15th, 1981.Google Scholar
5. Hoak, D. E., Ellison, D. E. et al. USAF Stability and Control DATCOM; Flight Control Division; Air Force Flight Dynamics Laboratory, Wright Patterson Air Force Base, Ohio, 1960, revised 1975.Google Scholar
6. Roskam, J. Methods for Estimating Stability and Control Derivatives of Conventional Subsonic Airplanes. Roskam Aviation and Engineering Corporation, 1973.Google Scholar
7. Wells, W. R., Banda, S. and Quam, D. L. Model for Unsteadiness in Lateral Dynamics for use in Parameter Estimation, J Aircr, 1980, 17, 782.Google Scholar
8. Abromowttz, M. and Stegun, F. Handbook of Mathematical Functions with Formulas, Graphs and Mathematical Tables, Dover Publications, New York, 1965.Google Scholar
9. An analysis of methods for predicting the stability characteristics of an elastic airplane. Prepared under Contract No. NAS 2 — 3662 by The Boeing Company, Renton, Washington, 1968.Google Scholar