2020
DOI: 10.1017/s089006042000044x
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Autonomous resource allocation of smart workshop for cloud machining orders

Abstract: In order to realize the online allocation of collaborative processing resource of smart workshop in the context of cloud manufacturing, a multi-objective optimization model of workshop collaborative resources (MOM-WCR) was proposed. Considering the optimization objectives of processing time, processing cost, product qualification rate, and resource utilization, MOM-WCR was constructed. Based on the time sequence of workshop processing tasks, the workshop collaborative manufacturing resource was integrated in M… Show more

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Cited by 3 publications
(2 citation statements)
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“…Several researchers have been devoted to the application of machine learning methods in the field of machining. Examples could be the low-carbon machining process planning (Chen et al, 2022), prediction of surface roughness in high-pressure jet-assisted turning (Kramar et al, 2016), modeling of charge geometry and parameters on the depth of penetration in explosive cutting (Nariman–Zadeh et al, 2003), optimization of machining process parameters (Famili, 1994; Pourmostaghimi et al, 2020), development of support systems for the proper selection of machine tools and machining process parameters (Rojek, 2017), selection of the proper cutting fluids based on the machining process such as milling, grinding, honing, and lapping (Mogush et al, 1988), prediction of the micro-end mill and micro-drills failure (Sevil and Ozdemir, 2011), and development of processing resource allocations for smart workshops in cloud manufacturing and its optimization (Hui et al, 2021). However, based on the authors’ knowledge, the use of machine-learning to predict the onset of shear localization has not been reported in the literature.…”
Section: Introductionmentioning
confidence: 99%
“…Several researchers have been devoted to the application of machine learning methods in the field of machining. Examples could be the low-carbon machining process planning (Chen et al, 2022), prediction of surface roughness in high-pressure jet-assisted turning (Kramar et al, 2016), modeling of charge geometry and parameters on the depth of penetration in explosive cutting (Nariman–Zadeh et al, 2003), optimization of machining process parameters (Famili, 1994; Pourmostaghimi et al, 2020), development of support systems for the proper selection of machine tools and machining process parameters (Rojek, 2017), selection of the proper cutting fluids based on the machining process such as milling, grinding, honing, and lapping (Mogush et al, 1988), prediction of the micro-end mill and micro-drills failure (Sevil and Ozdemir, 2011), and development of processing resource allocations for smart workshops in cloud manufacturing and its optimization (Hui et al, 2021). However, based on the authors’ knowledge, the use of machine-learning to predict the onset of shear localization has not been reported in the literature.…”
Section: Introductionmentioning
confidence: 99%
“…Please seeHui et al (2021) for an example application exploiting cloud compute for smart scheduling.…”
mentioning
confidence: 99%