Robust PID Controller Design for an UAV Flight Control System

B. Kada; Y. Ghazzawi

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Robust PID Controller Design for an UAV Flight Control System

B. Kada and Y. Ghazzawi

WORLD CONGRESS ON ENGINEERING AND COMPUTER SCIENCE, WCECS 2011, VOL II, pp.945-950

Lecture Notes in Engineering and Computer Science

01/01/2011

Abstract

Computer Science

Computer Science, Theory & Methods

Engineering

Engineering, Electrical & Electronic

Science & Technology

Technology

The present paper describes the structure and the design aspects of a robust PID controller for higher-order systems. A design scheme that combines deadbeat response, robust control, and model reduction techniques to enhance the performances and robustness of PID controller is presented. Unlike conventional deadbeat controllers, the tuning parameters are reduced to one cascade gain which yields a practical tuning method. The design scheme is illustrated on a pitch-axis autopilot design of an Unmanned Aerial Vehicle (UAV). Computer simulations show that the proposed method improves time-domain response performances and exhibits stronger robustness property to conquer system uncertainties.

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Title: Robust PID Controller Design for an UAV Flight Control System
Creators - without role: B. Kada - King Abdulaziz University
Y. Ghazzawi - King Abdulaziz University
Contributors - without role: S I Ao
C Douglas
W S Grundfest
J Burgstone
Publication Details: WORLD CONGRESS ON ENGINEERING AND COMPUTER SCIENCE, WCECS 2011, VOL II, pp.945-950
Series: Lecture Notes in Engineering and Computer Science
Publisher: Int Assoc Engineers-Iaeng
Number of pages: 6
Grant note: Aeronautical Engineering Department KAU T95/429 / Deanship of Scientific Research
Identifiers: 9940574408331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Conference proceeding