Title :
Input Design Minimizing the ~-gap in Cross-Directional Models of Paper Machines
Author :
Ammar, Mohammed ; Dumont, Guy
Author_Institution :
Dept. of Electr. & Comput. Eng., British Columbia Univ.
Abstract :
Modeling uncertainties resulting from input-output identification are inevitable. In this paper, input design minimizing the uncertainties in the static spatial model of paper machines is presented. A technique that was developed for temporal transfer functions was adapted to the spatial domain. The spatial response is modeled by a non-causal transfer function as it propagates in both the forward and backward directions of space. As the robustness of the closed loop is a crucial issue, the uncertainties are quantified using the nu-gap metric and the worst case nu-gap resulting from a prediction error experiment over all plants in the uncertainty region is minimized. The nu-gap stability criterion is extended to accommodate the non-causal system. Simulation results illustrate the advantage of using the designed input and the significance of the spatial nu-gap
Keywords :
closed loop systems; control system synthesis; paper making machines; robust control; transfer functions; uncertain systems; closed loop; cross-directional models; input-output identification; modeling uncertainties; noncausal transfer function; nu-gap metric; nu-gap minimization; nu-gap stability; paper machines; robustness; spatial domain; spatial response modeling; static spatial model; temporal transfer functions; Actuators; Frequency; Industrial control; Paper making machines; Paper products; Robustness; Stability criteria; Testing; Transfer functions; Uncertainty;
Conference_Titel :
American Control Conference, 2006
Conference_Location :
Minneapolis, MN
Print_ISBN :
1-4244-0209-3
Electronic_ISBN :
1-4244-0210-7
DOI :
10.1109/ACC.2006.1657309
