On-Line Production Planning Optimization Based on Message Bus of MES

In this paper, a new Lagrange relaxation based decomposition algorithm for the integrated offshore oil production planning optimization is presented. In our previous study (Gao et al. Computers and Chemical Engineering, 2020, 133, 106674), a multiperiod mixed-integer nonlinear programming (MINLP) model considering both well operation and flow assurance simultaneously had been proposed. However, due to the large-scale nature of the problem, i.e., too many oil wells and long planning time cycle, the optimization problem makes it difficult to get a satisfactory solution in a reasonable time. As an effective method, Lagrange relaxation based decomposition algorithms can provide more compact bounds and thus result in a smaller duality gap. Specifically, Lagrange multiplier is introduced to relax coupling constraints of multi-batch units and thus some moderate scale sub-problems result. Moreover, dual problem is constructed for iteration. As a result, the original integrated large-scale model is decomposed into several single-batch subproblems and solved simultaneously by commercial solvers. Computational results show that the proposed method can reduce the solving time up to 43% or even more. Meanwhile, the planning results are close to those obtained by the original model. Moreover, the larger the problem size, the better the proposed LR algorithm is than the original model.

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Computer Integrated Ship Production

Journal of Ship Production ◽

10.5957/jsp.1997.13.3.215 ◽

1997 ◽

Vol 13 (03) ◽

pp. 215-223

Author(s):

Einar Pedersen ◽

John Fredrik Hatling

Keyword(s):

Computer Integrated Manufacturing ◽

Planning System ◽

Quality Data ◽

Shop Floor ◽

Just In Time ◽

Line Production ◽

Control Programs ◽

Organizational Issues ◽

On Line ◽

Data Files

Wider exploitation of computer integrated manufacturing (CIM) in shipbuilding is inevitable as yards seek continuing improvements in productivity and quality to sharpen competitiveness. The buzz word CIM has been used in many ways through the years. The correct interpretation may be the integration of all computer systems directly supporting the definition and production of the ship. This comprises CAD and also administrative systems such as planning and material control programs. CIM in this paper is defined as optimal utilization of CAD data and planning data in shop floor production, including feedback to the planning system and accumulation of quality data. The paper defines the state-of-the-art of CIM solutions at shipyards, and outlines a case study of one larger CIM installation. The case presented shows the structure of one installed system, and outlines the experience gained through planning, preparation and installation of the system. The case also includes cost budgets for the installation, including necessary training for planners and operators. Important organizational issues when planning the structure of CIM based production is described in the case. Terms such as Central Work Preparation and Local Work Preparation are introduced. The tasks performed in each area that add value to the CIM data files are described. At the end of the paper, the authors have outlined some future thoughts on further developments of CIM at shipyards. Important issues are, e.g., on-line production simulation systems capable of constantly updating the planning system in order to ensure the highest possible productivity and to support just in time (JIT) philosophies in all areas of the production.

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On-line Production Quality Prediction for a Commercial Naphtha Catalytic Reforming Process

Information Technology Journal ◽

10.3923/itj.2013.4553.4560 ◽

2013 ◽

Vol 12 (18) ◽

pp. 4553-4560

Author(s):

Hou Weifeng ◽

Zhao Lujun ◽

Zhang Liming ◽

Wang Guihong

Keyword(s):

Production Quality ◽

Quality Prediction ◽

Catalytic Reforming ◽

Line Production ◽

On Line

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Beam heating and cooling of thick targets for on-line production of exotic nuclei

Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms ◽

10.1016/0168-583x(92)95928-k ◽

1992 ◽

Vol 70 (1-4) ◽

pp. 175-181 ◽

Cited By ~ 10

Author(s):

W.L. Talbert ◽

H.-H. Hsu ◽

F.C. Prenger

Keyword(s):

Exotic Nuclei ◽

Line Production ◽

Heating And Cooling ◽

Beam Heating ◽

On Line

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Production Planning Optimization in F Company: A Scheduling Theory Case Study

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.655-657.1646 ◽

2013 ◽

Vol 655-657 ◽

pp. 1646-1649 ◽

Cited By ~ 2

Author(s):

Chi Zhang ◽

Zhen He ◽

Yuan Peng Ruan

Keyword(s):

Linear Programming ◽

Production Planning ◽

Optimization Problem ◽

Assembly Line ◽

Scheduling Theory ◽

Scheduling Model ◽

Planning Optimization ◽

Optimization Methodology ◽

Optimum Production

Scheduling is an effective optimization methodology which has been widely used for production planning. This paper presents a scheduling model to optimize the output of an assembly line in F Semiconductor Company in Tianjin, China. The authors formulate the optimization problem as linear programming. The model and its implementation are described in detail in this article. The optimum production allocations have been founded by the scheduling model and the output has been increased.

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