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International Journal of Control Volume 86, 2013 - Issue 12
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Original Articles

Experimental quadrotor flight performance using computationally efficient and recursively feasible linear model predictive control

Mujtaba H. JafferyCOMSATS Institute of Information Technology, Lahore, PakistanCorrespondence[email protected]
,
Leo SheadSAVAG, University of Surrey, GuildfordGU2 7XH, UK
,
Jason L. ForshawSurrey Space Centre, University of Surrey, GuildfordGU2 7XH, UK
&
Vaios J. LappasSurrey Space Centre, University of Surrey, GuildfordGU2 7XH, UK
Pages 2189-2202 | Received 31 Aug 2012, Accepted 06 May 2013, Published online: 19 Jun 2013
 
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Abstract

A new linear model predictive control (MPC) algorithm in a state-space framework is presented based on the fusion of two past MPC control laws: steady-state optimal MPC (SSOMPC) and Laguerre optimal MPC (LOMPC). The new controller, SSLOMPC, is demonstrated to have improved feasibility, tracking performance and computation time than its predecessors. This is verified in both simulation and practical experimentation on a quadrotor unmanned air vehicle in an indoor motion-capture testbed. The performance of the control law is experimentally compared with proportional-integral-derivative (PID) and linear quadratic regulator (LQR) controllers in an unconstrained square manoeuvre. The use of soft control output and hard control input constraints is also examined in single and dual constrained manoeuvres.

Acknowledgements

This research was supported through funding by COMSATS Institute of Information Technology, Lahore, Pakistan.

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