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Space mapping for optimal control of a nonisothermal tube drawing process

We implement space mapping technique for the first time to optimize geometry of a glass tube during its production process. The strategy is to align the optimizer of the coarse model (isothermal tube drawing) with the fine model (nonisothermal tube drawing) through space mapping technique in order t...

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Published in:	Mathematical methods in the applied sciences 2021-10, Vol.44 (15), p.11797-11809
Main Authors:	Butt, Azhar Iqbal Kashif, Mumtaz, Kinza, Reséndiz‐Flores, Edgar O.
Format:	Article
Language:	English
Subjects:	aggressive space mapping algorithm Algorithms coarse model fine model glass tube drawing process Mapping Optimal control Optimization space mapping steepest descent algorithm
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description	We implement space mapping technique for the first time to optimize geometry of a glass tube during its production process. The strategy is to align the optimizer of the coarse model (isothermal tube drawing) with the fine model (nonisothermal tube drawing) through space mapping technique in order to find an optimal solution of a control problem. Adjoint variable approach is used to find optimizer of the coarse model. Numerical results obtained through aggressive space mapping (ASM) algorithm are presented and discussed.
doi_str_mv	10.1002/mma.6395
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subjects	aggressive space mapping algorithm Algorithms coarse model fine model glass tube drawing process Mapping Optimal control Optimization space mapping steepest descent algorithm
title	Space mapping for optimal control of a nonisothermal tube drawing process
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