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Abstract
Nowadays, one important challenge in cyber-physical production systems is updating dynamic production schedules through an automated decision-making performed while the production is running. The condition of the manufacturing equipment may in fact lead to schedule unfeasibility or inefficiency, thus requiring responsiveness to preserve productivity and reduce the operational costs. In order to address current limitations of traditional scheduling methods, this work proposes a new framework that exploits the aggregation of several digital twins, representing different physical assets and their autonomous decision-making, together with a global digital twin, in order to perform production scheduling optimization when it is needed. The decision-making process is supported on a fuzzy inference system using the state or conditions of different assets and the production rate of the whole system. The condition of the assets is predicted by the condition-based monitoring modules in the local digital twins of the workstations, whereas the production rate is evaluated and assured by the global digital twin of the shop floor. This paper presents a framework for decentralized and integrated decision-making for re-scheduling of a cyber-physical production system, and the validation and proof-of-concept of the proposed method in an Industry 4.0 pilot line of assembly process. The experimental results demonstrate that the proposed framework is capable to detect changes in the manufacturing process and to make appropriate decisions for re-scheduling the process.
Highlights
A fresh push towards smart manufacturing and cyberphysical production systems is given to automatically and dynamically update production by decision-making tools in runtime (Panetto, Iung, Ivanov, Weichhart & Wang, 2019)
The work reported in this paper proposes the design and implementation of a framework based on local and global Digital Twin (DT) for smart decision-making in cyber-physical production system and validate the technical viability and the possibility to use it real industrial setups by a proof-of-concept in an Industry 4.0 pilot line
This is not surprising because, as mentioned in the Introduction section, DT can be considered as hosted in the cyber aspect of Cyber-Physical Systems (CPS), and together with CPS are among the main concepts related to the Industry 4.0 paradigm
Summary
A fresh push towards smart manufacturing and cyberphysical production systems is given to automatically and dynamically update production by decision-making tools in runtime (Panetto, Iung, Ivanov, Weichhart & Wang, 2019). The main motivation of the present work is to better exploit DTs, data gathered from physical assets and decision-making to improve the scheduling process, optimize, and increase the productivity of manufacturing systems This leads to consider new DT-based scheduling methods to reduce scheduling de viations, by updating resource parameters from interactive program ming strategies(Fang et al, 2019). One strategy is to develop distributed frameworks based on DTs which, besides the robustness against failures, to enrich the knowledge about the manufacturing process because of the added value given by the simulations, close to the local process, and the generation of useful data This information allows to take more efficient actions both globally (at factory level) and locally (at the level of workstations or single equipment pieces), improving the scheduling and the optimization tasks.
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