Practical Tuning Rule Development for Fractional Order Proportional and Integral Controllers
نویسندگان
چکیده
This paper presents a new practical tuning method for fractional order proportional and integral (FO-PI) controller. The plant to be controlled is mainly first order plus delay time (FOPDT). The tuning is optimum in the sense that the load disturbance rejection is optimized yet with a constraint on the maximum or peak sensitivity. We generalized Ms constrained integral (MIGO) based controller tuning method to handle the FO-PI case, called F-MIGO, given the fractional order . The F-MIGO method is then used to develop tuning rules for the FOPDT class of dynamic systems. The final developed tuning rules only apply the relative dead time of the FOPDT model to determine the best fractional order and at the same time to determine the best FO-PI gains. Extensive simulation results are included to illustrate the simple yet practical nature of the developed new tuning rules. The tuning rule development procedure for FO-PI is not only valid for FOPDT but also applicable for other general class of plants. DOI: 10.1115/1.2833934
منابع مشابه
∗for Submission to Special Session on “fractional Order Control” Organized by Profs. Blas M. Vinagre and Vicente Feliu, the Third Symposium on Fractional Derivatives and Their Applications (asme Fdta2007) at the 6th Asme International Conference on Multibody
This paper aims to apply the practical tuning procedure for fractional order proportional and integral controller (FO-PI) to two experimental platforms. The first platform is Quanser’s Heat Flow Experiment (HFE) and the second platform is the Quanser’s Rotary Flexible Joint (RFJ) Module. The fractional controllers in both cases have been digitally implemented using Oustaloup’s recursive approxi...
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