A multi-objective iterative learning control approach for additive manufacturing applications

Ingyu Lim; David J. Hoelzle; Kira L. Barton

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A multi-objective iterative learning control approach for additive manufacturing applications

机译：增材制造应用中的多目标迭代学习控制方法

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Iterative learning control (ILC) is a method for improving the performance of stable, repetitive systems. Standard ILC is constructed in the temporal domain, with performance improvements achieved through iterative updates to the control signal. Recent ILC research focuses on reformulating temporal ILC into the spatial domain, where 2D convolution accounts for spatial closeness. This work expands spatial ILC to include optimization of multiple performance metrics. Performance objectives are classified into primary, complementary, competing, and domain specific objectives. New robustness and convergence criteria are provided. Simulation results validate flexibility of the spatial framework on a high-fidelity additive manufacturing system model.

机译：迭代学习控制（ILC）是一种用于提高稳定的重复系统性能的方法。标准ILC在时域中构建，通过对控制信号进行迭代更新来实现性能改进。最近的ILC研究集中在将时间ILC重新构造到空间域中，其中2D卷积说明了空间接近性。这项工作扩展了空间ILC，以包括多个性能指标的优化。绩效目标分为主要目标，补充目标，竞争目标和领域特定目标。提供了新的鲁棒性和收敛标准。仿真结果验证了高保真的增材制造系统模型上空间框架的灵活性。

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来源
《Control Engineering Practice》 |2017年第7期|74-87|共14页
作者
Ingyu Lim; David J. Hoelzle; Kira L. Barton;
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作者单位

Department of Mechanical Engineering at the University of Michigan at Ann Arbor, Ml 48109, USA;

Department of Mechanical and Aerospace Engineering at the Ohio State University, Columbus, OH 43210, USA;

Department of Mechanical Engineering at the University of Michigan at Ann Arbor, Ml 48109, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Iterative learning control; Multiple objective; Spatial domain; Additive manufacturing; Electrohydrodynamic Jet Printing;

机译：迭代学习控制;多目标;空间域;添加剂制造;电动流体动力喷射印刷;

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1. Iterative Learning of Optimal Control for Nonlinear Processes With Applications to Laser Additive Manufacturing [J] . Rafajlowicz Wojciech, Jurewicz Piotr, Reiner Jacek, IEEE Transactions on Control Systems Technology . 2019,第6期

机译：非线性过程最优控制的迭代学习及其在激光增材制造中的应用
2. Application of robust monotonically convergent spatial iterative learning control to microscale additive manufacturing [J] . Wang Zhi, Pannier Christopher P., Barton Kira, Mechatronics: The Science of Intelligent Machines . 2018,第期

机译：鲁棒单调会聚空间迭代学习控制对微观添加剂制造的应用
3. A Multi-Input Single-Output iterative learning control for improved material placement in extrusion-based additive manufacturing [J] . Ashley A. Armstrong, Andrew G. Alleyne Control Engineering Practice . 2021,第Juna期

机译：一种多输入单输出迭代学习控制，用于改进基于挤出的添加剂制造中的材料放置
4. A new spatial Iterative Learning Control approach for improved micro-Additive Manufacturing [C] . Hoelzle David J., Barton Kira L. American Control Conference . 2014

机译：改进微添加剂制造的新的空间迭代学习控制方法
5. Flexible adaptation of iterative learning control with applications to synthetic bone graft manufacturing. [D] . Hoelzle, David J. 2011

机译：迭代学习控制的灵活适应以及在合成骨移植物制造中的应用。
6. Morphology Control in a Dual-Cure System for Potential Applications in Additive Manufacturing [O] . Jonathan A. Campbell, Harrison Inglis, Elson Ng WeiLong, 2019

机译：双固化系统中的形态控制可用于增材制造
7. Flexible adaptation of iterative learning control with applications to synthetic bone graft manufacturing [O] . Hoelzle David J. 2011

机译：灵活适应迭代学习控制，适用于合成骨移植制造

A multi-objective iterative learning control approach for additive manufacturing applications

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