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Design and Robust Performance Evaluation of a Fractional Order PID Controller Applied to a DC Motor
J. Viola, L. Angel and J.M. Sebastian, "Design and Robust Performance Evaluation of a Fractional Order PID Controller Applied to a DC Motor," IEEE/CAA J. Autom. Sinica, vol. 4, no. 2, pp. 304-314, Apr. 2017. doi: 10.1109/JAS.2017.7510535
Authors:J. Viola  L. Angel  J.M. Sebastian
Affiliation:1. Universidad Pontificia Bolivariana, Bucaramanga 681004, Colombia;2. Universidad Politecnica de Madrid, Centre for Automation and Robotics (CAR) UPM-CSIC, Madrid 28006, Spain
Abstract:This paper proposes a methodology for the quantitative robustness evaluation of PID controllers employed in a DC motor. The robustness analysis is performed employing a 23 factorial experimental design for a fractional order proportional integral and derivative controller (FOPID), integer order proportional integral and derivative controller (IOPID) and the Skogestad internal model control controller (SIMC). The factors assumed in experiment are the presence of random noise, external disturbances in the system input and variable load. As output variables, the experimental design employs the system step response and the controller action. Practical implementation of FOPID and IOPID controllers uses the MATLAB stateflow toolbox and a NI data acquisition system. Results of the robustness analysis show that the FOPID controller has a better performance and robust stability against the experiment factors. 
Keywords:Factorial experimental design   fractional-order PID controller   robustness analysis   SIMC PID controller
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