TY - GEN UR - http://lib.ugent.be/catalog/pug01:2049680 ID - pug01:2049680 LA - eng TI - Design choices for the prediction and optimization stage of ﬁnite-set model based predictive control PY - 2011 SN - 9781457719127 PB - New York AU - Vyncke, Thomas 002000380981 801002034633 AU - Thielemans, Steven 002001235692 AU - Dierickx, Tom AU - Dewitte, Ruben AU - Jacxsens, Michiel 002002082020 AU - Melkebeek, Jan TW08 801000348550 0000-0003-0401-1367 AB - The interest in applying model-based predictive control (MBPC) for power-electronic converters has grown tremendously in the past years. This is due to the fact that MBPC allows fast and accurate control of multiple controlled variables for hybrid systems such as a power electronic converter and its load. As MBPC is a family of possible controllers rather than one single controller, several design choices are to be made when implementing MBPC. In this paper several conceptual possibilities are considered and compared for two important parts of online Finite-Set MBPC (FS-MBPC) algorithm: the cost function in the optimizations step and the prediction model in the prediction step. These possibilities are studied for two different applications of FS-MBPC for power electronics. The cost function is studied in the application of output current and capacitor voltage control of a 3-level ﬂying-capacitor inverter. The aspect of the prediction model is studied for the stator ﬂux and torque control of an induction machine with a 2-level inverter. The two different applications illustrate the versatility of FS-MBPC. In the study concerning the cost function ﬁrstly the comparison is made between quadratic and absolute value terms in the cost function. Comparable results are obtained, but a lower resource usage is obtained for the absolute value cost function. Secondly a capacitor voltage tracking control is compared to a control where the capacitor voltage may deviate without cost from the reference up to a certain voltage. The relaxed cost function results in better performance. For the prediction model both a classical, parametric machine model and a back propagation artiﬁcial neural network are applied. Both are shown to be capable of a good control quality, the neural network version is much more versatile but has a higher computational burden. However, the number of neurons in the hidden layer should be sufficiently high. All studied aspects were verified with experimental results and these validate the simulation results. Even more important is the fact that these experiments prove the feasibility of implementing online finite-set MBPC in an FPGA for both applications. ER -Download RIS file
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024 | a 1854/LU-2049680 2 handle | ||
024 | a 10.1109/PRECEDE.2011.6078687 2 doi | ||
040 | a UGent | ||
245 | a Design choices for the prediction and optimization stage of ﬁnite-set model based predictive control | ||
260 | a New York, NY, USA b IEEE c 2011 | ||
520 | a The interest in applying model-based predictive control (MBPC) for power-electronic converters has grown tremendously in the past years. This is due to the fact that MBPC allows fast and accurate control of multiple controlled variables for hybrid systems such as a power electronic converter and its load. As MBPC is a family of possible controllers rather than one single controller, several design choices are to be made when implementing MBPC. In this paper several conceptual possibilities are considered and compared for two important parts of online Finite-Set MBPC (FS-MBPC) algorithm: the cost function in the optimizations step and the prediction model in the prediction step. These possibilities are studied for two different applications of FS-MBPC for power electronics. The cost function is studied in the application of output current and capacitor voltage control of a 3-level ﬂying-capacitor inverter. The aspect of the prediction model is studied for the stator ﬂux and torque control of an induction machine with a 2-level inverter. The two different applications illustrate the versatility of FS-MBPC. In the study concerning the cost function ﬁrstly the comparison is made between quadratic and absolute value terms in the cost function. Comparable results are obtained, but a lower resource usage is obtained for the absolute value cost function. Secondly a capacitor voltage tracking control is compared to a control where the capacitor voltage may deviate without cost from the reference up to a certain voltage. The relaxed cost function results in better performance. For the prediction model both a classical, parametric machine model and a back propagation artiﬁcial neural network are applied. Both are shown to be capable of a good control quality, the neural network version is much more versatile but has a higher computational burden. However, the number of neurons in the hidden layer should be sufficiently high. All studied aspects were verified with experimental results and these validate the simulation results. Even more important is the fact that these experiments prove the feasibility of implementing online finite-set MBPC in an FPGA for both applications. | ||
598 | a C1 | ||
100 | a Vyncke, Thomas 0 002000380981 0 801002034633 0 973407879273 | ||
700 | a Thielemans, Steven 0 002001235692 0 802000034590 | ||
700 | a Dierickx, Tom | ||
700 | a Dewitte, Ruben | ||
700 | a Jacxsens, Michiel 0 002002082020 0 802000926081 | ||
700 | a Melkebeek, Jan u TW08 0 801000348550 0 0000-0003-0401-1367 | ||
650 | a Technology and Engineering | ||
653 | a MBPC | ||
653 | a programmable digital hardware | ||
653 | a FPGA implementation | ||
653 | a predictive control | ||
653 | a torque control | ||
653 | a ﬂying-capacitor inverters | ||
653 | a induction motor | ||
773 | t Workshop on Predictive Control of Electrical Drives and Power Electronics (PRECEDE 2011) g Predictive Control of Electrical Drives and Power Electronics, Workshop proceedings. 2011. IEEE. p.47-54 q :<47 | ||
856 | 3 Full Text u https://biblio.ugent.be/publication/2049680/file/2049758 z [open] y 09_-_Design_choices_for_the_prediction_and_optimization_stage_of_finite-set_model_based_predictive_control.pdf | ||
920 | a confcontrib | ||
852 | x EA b TW08 | ||
922 | a UGENT-EA |
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