Multi-Objective Sequencing Optimization for Mixed-Model Assembly Line Considering Due-Date Satisfaction
スポンサーリンク
概要
- 論文の詳細を見る
To meet higher customer satisfaction and shorter production lead time under rapidly changing demands and global competition, importance of just-in-time and agile manufacturing is raising much more attentions than before. To cope with such circumstances, assembly line is shifting to mixed-model assembly line. Under such situation, it is essential to extend system boundary wider and resolve the problem totally. Moreover, in this study, we pay our attention to the latest production manner applied in car industry and extend our conventional model associated with due dates of finished products. Finally, we have formulated a bi-objective optimization problem that aims at reducing total sum of tardiness and total volume of inventories at the same time. Besides the usual one-through approach to solve the resulting problem, we adopt a two stage approach associated with multi-objective analysis. To reveal some properties of the proposed approaches, we provide a case study and discuss effectiveness of the method and usefulness of the results.
著者
-
Shimizu Yoshiaki
Department Of Biological And Environmental Sciences Faculty Of Agriculture Yamaguchi University
-
Sakaguchi Tatsuhiko
Department of Mechanical Engineering, Toyohashi University of Technology
-
WAKI Toshiya
Department of Mechanical Engineering, Toyohashi University of Technology
関連論文
- An Evolutionary Approach to Derive Adaptive Optimal Control Policy for Chemical Processes
- Extended hepatic resection and outcomes in intrahepatic cholangiocarcinoma
- A Practical Method for Multi-Objective Scheduling through Soft Computing Approach(Advanced Production Scheduling)
- Integrated Product Design through Multi-Objective Optimization Incorporated with Meta-Modeling Technique
- Job Shop Scheduling Focusing on Role of Buffer
- Timed Colored Petri Net Model for Analyzing Operating Procedures for Batch Processes
- Regioselective Photohydroxylation of Quinolinium Ions in Smectite Clay Interlayers
- Operating Procedure Synthesis Subject to Restricted State Transition Using Differential Evolution
- Prototype Development for Supporting Multiobjective Decision Making in an III-Posed Environment
- Graft Copolymerization of Acrylic Acid onto Chitin/Cellulose Composite Fiber
- Relation between pathogenicity and genetic variation within Plasmodiophora brassicae
- An Infrastructure for Integrating Element Technologies of Life Cycle Engineering
- Studies by Moire topography of the facial surface area and volume in adults with Down's syndrome
- Hybrid Approach for Huge Multi-Stage Logistics Network Optimization under Disruption Risk
- Multi-Objective Sequencing Optimization for Mixed-Model Assembly Line Considering Due-Date Satisfaction
- Operating Procedure Synthesis Subject to Restricted State Transition Using Differential Evolution
- 7B1 EVOLUTIONAL OPTIMIZATION ON MATERIAL ORDERING AND INVENTORY CONTROL OF SUPPLY CHAIN THROUGH INCENTIVE SCHEME(Technical session 7B: Supply chain)
- Daily Planning for Three Echelon Logistics Considering Inventory Conditions
- Evolutional Optimization on Material Ordering and Inventory Control of Supply Chain through Incentive Scheme
- Ca2+ sensitivity of skinned uterine muscle fibers in unilaterally pregnant rats.
- A new method for the state inequality-constrained optimal problem in a class of system containing control variables linearly.
- An effective computational method of the optimal discrete control action of chemical process based on sensitivity analysis.
- An effective sub-optimal formulation of the singular and/or bang-bang control problem.