This study develops a new optimisation framework for process inspection planning of a manufacturing system with multiple quality characteristics, in which the proposed framework is based on a mixed-integer mathematical programming (MILP) model. Due to the stochastic nature of production processes and since their production processes are sensitive to manufacturing variations; a proportion of products do not conform the design specifications. A common source of these variations is misadjustment of each operation that leads to a higher number of scraps. Therefore, uncertainty in misadjustment is taken into account in this study. A twofold decision is made on the subject that which quality characteristic needs what kind of inspection, and the t...
In the past several decades, significant amount of resources have been spent by many manufactures fo...
La planification de l'inspection de la qualité des pièces (PQIP) est un problème important dans les ...
In robust design, the principle is to improve product quality minimizing the impacts of variations....
In this paper, a bi-objective mixed-integer linear programming (BOMILP) model for planning of an ins...
Quality inspection in multistage production systems (MPSs) has become an issue and this is because t...
In multi-stage manufacturing systems, optimisation of part quality inspection planning (PQIP) proble...
Efficient production quality control is a major issue to manufacturers. After all, cost-efficiently ...
Part Quality Inspection Planning (PQIP) is a significant problem in multi-stage manufacturing system...
This paper develops a mixed-integer non-linear programming model for an integrated planning of part ...
This paper proposes a robust possibilistic and multi-objective mixed-integer linear programming math...
International audienceIn this paper, we present an agile integrated inspection-operation planning mo...
Designing appropriate quality-inspections in manufacturing processes has always been a challenge to ...
This paper presents a mixed-integer linear mathematical programming model for the integrated plannin...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Includes...
In the past several decades, significant amount of resources have been spent by many manufactures fo...
La planification de l'inspection de la qualité des pièces (PQIP) est un problème important dans les ...
In robust design, the principle is to improve product quality minimizing the impacts of variations....
In this paper, a bi-objective mixed-integer linear programming (BOMILP) model for planning of an ins...
Quality inspection in multistage production systems (MPSs) has become an issue and this is because t...
In multi-stage manufacturing systems, optimisation of part quality inspection planning (PQIP) proble...
Efficient production quality control is a major issue to manufacturers. After all, cost-efficiently ...
Part Quality Inspection Planning (PQIP) is a significant problem in multi-stage manufacturing system...
This paper develops a mixed-integer non-linear programming model for an integrated planning of part ...
This paper proposes a robust possibilistic and multi-objective mixed-integer linear programming math...
International audienceIn this paper, we present an agile integrated inspection-operation planning mo...
Designing appropriate quality-inspections in manufacturing processes has always been a challenge to ...
This paper presents a mixed-integer linear mathematical programming model for the integrated plannin...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Includes...
In the past several decades, significant amount of resources have been spent by many manufactures fo...
La planification de l'inspection de la qualité des pièces (PQIP) est un problème important dans les ...
In robust design, the principle is to improve product quality minimizing the impacts of variations....