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Engineering    2017, Vol. 3 Issue (5) : 608 -615     https://doi.org/10.1016/J.ENG.2017.05.016
Research |
Control for Intelligent Manufacturing: A Multiscale Challenge
Han-Xiong Li(),Haitao Si()
Department of Systems Engineering and Engineering Management, City University of Hong Kong, Hong Kong, China
Abstract
Abstract  

The Made in China 2025 initiative will require full automation in all sectors, from customers to production. This will result in great challenges to manufacturing systems in all sectors. In the future of manufacturing, all devices and systems should have sensing and basic intelligence capabilities for control and adaptation. In this study, after discussing multiscale dynamics of the modern manufacturing system, a five-layer functional structure is proposed for uncertainties processing. Multiscale dynamics include: multi-time scale, space-time scale, and multi-level dynamics. Control action will differ at different scales, with more design being required at both fast and slow time scales. More quantitative action is required in low-level operations, while more qualitative action is needed regarding high-level supervision. Intelligent manufacturing systems should have the capabilities of flexibility, adaptability, and intelligence. These capabilities will require the control action to be distributed and integrated with different approaches, including smart sensing, optimal design, and intelligent learning. Finally, a typical jet dispensing system is taken as a real-world example for multiscale modeling and control.

Keywords System modeling      Process control      Artificial intelligence      Manufacturing      Jet dispensing     
Corresponding Authors: Han-Xiong Li,Haitao Si   
Online First Date: 02 November 2017    Issue Date: 08 November 2017
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Han-Xiong Li
Haitao Si
Cite this article:   
Han-Xiong Li,Haitao Si. Control for Intelligent Manufacturing: A Multiscale Challenge[J]. Engineering, 2017, 3(5): 608 -615 .
URL:  
http://engineering.org.cn/EN/10.1016/J.ENG.2017.05.016     OR     http://engineering.org.cn/EN/Y2017/V3/I5/608
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