Abstract:
This paper presents performance comparison of three speed control schemes (engine throttle control) for UAV applications. First scheme uses fixed throttle levels (three levels for cruise climb and descend) however no speed feedback was used in the control loop. Second scheme also uses fixed throttle levels however number of levels are increased and switching is performed based on speed feedback using rule based decisions making techniques. Third scheme uses modern robust speed control, designed using H∞ loop shaping. The H∞ controller design requires an accurate linear model, which was obtained by system identification using available nonlinear simulations. The proposed algorithms were implemented in C/C++ and tested in 6-DOF simulations. Simulation results showed that the rule based decision making scheme gave acceptable performance, however the H∞ controller worked better in the presence of disturbances in all flight conditions e.g. cruise, climb, descend and rolling keeping speed in a small band of a fixed reference value.
Page(s):
71-75
DOI:
DOI not available
Published:
Journal: Proceedings 5th International Bhurban Conference on Applied Sciences and Technology , Volume: 0, Issue: 0, Year: 2007