Integration of Production Planning and Scheduling Based on RTN Representation under Uncertainties

Zhang, Tao; Wang, Yue; Jin, Xin; Lu, Shan

doi:10.3390/a12060120

Cited by 4 publications

(1 citation statement)

References 35 publications

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“…Planning and scheduling are two of the decision-making strategies that deal with decisions involving how and when to execute operations to optimize a chosen objective, such as maximizing profits or minimizing costs. Such decision-making strategies are widely used in process industries since they enable companies to efficiently carry out their operations and achieve the desired objectives. − The key difference between planning and scheduling are their disparate time scales and subsequent decisions. Planning deals with the long-term strategic/managerial/tactical decisions where the time span could be weeks, months, or years while scheduling focuses on the short-term day-to-day decision-making process.…”

Section: Introductionmentioning

confidence: 99%

Integration of Planning and Scheduling for Large-Scale Multijob Multitasking Batch Plants

Menon,

Fukasawa,

Ricardez-Sandoval

2024

Ind. Eng. Chem. Res.

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In this study, we propose a novel framework to integrate planning and scheduling for a multijob multitasking largescale industrial plant. The key contribution of this study is that the proposed approach can address problems involving multijob batch plants where there are no fixed products or recipes, i.e., the job specifications could vary with respect to client requirements. The proposed approach includes a long-term planning model and a short-term scheduling model that are integrated using an iterating framework, where the two models interact with each other and share information in every iteration. A long-term planning model is developed for a multijob batch plant that provides key planning decisions, including daily processing targets and the required number of workers to achieve those targets to the scheduling model. In addition, to allow the integration of such a planning model with scheduling, we propose an iterative integration scheme that includes a calibration scheme combined with a rolling horizon approach. The proposed scheme also considers variations in job arrivals and allows to account for the latest job arrivals in the planning model. The proposed framework was validated using an actual industrial case study from the analytical services sector, which is focused on carrying out analyses on samples that are ordered by clients. The results obtained show an average increase of 8.27% in terms of profit when the models are integrated using the rolling horizon approach in comparison to solving the models sequentially.

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Section: Introductionmentioning

confidence: 99%

Integration of Planning and Scheduling for Large-Scale Multijob Multitasking Batch Plants

Menon,

Fukasawa,

Ricardez-Sandoval

2024

Ind. Eng. Chem. Res.

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Integration of planning, scheduling, and control: A review and new perspectives

Andrés‐Martínez

Ricardez‐Sandoval

2022

Can J Chem Eng

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The competitive, profitable, and safe operation of chemical plants depends on tight and effective coordination among the different decision making levels of the enterprise, including planning, scheduling, and control. The optimal integration of these functions has become critical given the disruptive effects of the recent COVID-19 pandemic on the supply chains and the current trends in climate change. However, integrating multiple decision making levels creates modelling and computational challenges. In this study, we review the progress made in the integration of two and three decisions levels using mathematical programming and control theory tools. We highlight the model reduction and decomposition techniques that have been applied, as well as the main issues that remain unsolved. Perspectives on emergent areas of application and novel computing solutions are also discussed.

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