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Multi-Stage Simultaneous Lot-Sizing and Scheduling Planning of Flow Lines with Shifting Bottlenecks
In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks.
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- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/optimierung
- http://id.loc.gov/authorities/subjects/sh85040850
- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/empreses_planificacio
- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/economics_management_science
- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/planification_de_la_production
- http://id.loc.gov/authorities/subjects/sh85107211
- http://id.worldcat.org/fast/902116
- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/technology_&_engineering_industrial_engineering
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- http://id.loc.gov/authorities/subjects/sh85107216
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- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/technology_&_engineering_industrial_technology
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- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/production_controle
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- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/gestion_de_la_production
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- http://experiment.worldcat.org/entity/work/data/1372592690#Topic/business_&_economics_production_&_operations_management
http://schema.org/description
- "In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks. Especially, a new meta-heuristic is developed which combines the principles of Variable Neighborhood Decomposition Search (VNDS) and Exchange. This VNDS+E heuristic is able to find very good solutions for the improved GLSPMS, including a real-world problem case. Finally, further model extensions, e.g., for scarce setup resources, are proposed."
- "In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks."@en
- "In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks."
- "¿Due to a varying product demand (changing product mix) and different production speeds, bottlenecks may shift between the stages. In that case, a simultaneous lot-sizing and scheduling of these stages is recommendable. Hence, an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) was developed. Moreover, several reformulation techniques were applied to this model to solve it exactly. Besides, a new meta-heuristic which combines the principles of Variable Neighborhood Decomposition Search (VNDS) and Exchange was implemented to find good sol."@en
- "In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks. Especially, a new meta-heuristic is developed which combines the principles of Variable Neighborhood Decomposition Search (VNDS) and Exchange. This VNDS+E heuristic is able to find very good solutions for the improved GLSPMS, including a real-world problem case. Finally, further model extensions, e.g., for scarce setup resources, are proposed. Contents · Simultaneous Lot-Sizing and Scheduling for Flow Line Production Systems · MIP Models and Heuristic Solution Procedures · Practical Application Target Groups · Researchers and students in the field of production planning · Executives in this area The Author Dr. Florian Seeanner wrote his dissertation under Prof. Dr. Herbert Meyr's supervision at the Chair of Production and Supply Chain Management at the Technische Universität Darmstadt. The Editors The series Produktion und Logistik is edited by Prof. Dr. Bernhard Fleischmann, Prof. Dr. Martin Grunow, Prof. Dr. Hans-Otto Günther, Prof. Dr. Stefan Helber, Prof. Dr. Karl Inderfurth, Prof. Dr. Herbert Kopfer, Prof. Dr. Herbert Meyr, Prof. Dr. Thomas S. Spengler, Prof. Dr. Hartmut Stadtler, Prof. Dr. Horst Tempelmeier und Prof. Dr. Gerhard Wäscher."
- "In the consumer packaged goods industry, usually a large number of final items are produced in a highly automated flow line production system. Florian Seeanner presents a mathematical model which is an improved version of the General Lot-Sizing and Scheduling Problem for Multiple production Stages (GLSPMS) to tackle the problem of shifting bottlenecks. Especially, a new meta-heuristic is developed which combines the principles of Variable Neighborhood Decomposition Search (VNDS) and Exchange. This VNDS+E heuristic is able to find very good solutions for the improved GLSPMS, including a real-world problem case. Finally, further model extensions, e.g., for scarce setup resources, are proposed. Contents · Simultaneous Lot-Sizing and Scheduling for Flow Line Production Systems · MIP Models and Heuristic Solution Procedures · Practical Application Target Groups · Researchers and students in the field of production planning · Executives in this area The Author Dr. Florian Seeanner wrote his dissertation under Prof. Dr. Herbert Meyr's supervision at the Chair of Production and Supply Chain Management at the Technische Universität Darmstadt. The Editors The series Produktion und Logistik is edited by Prof. Dr. Bernhard Fleischmann, Prof. Dr. Martin Grunow, Prof. Dr. Hans-Otto Günther, Prof. Dr. Stefan Helber, Prof. Dr. Karl Inderfurth, Prof. Dr. Herbert Kopfer, Prof. Dr. Herbert Meyr, Prof. Dr. Thomas S. Spengler, Prof. Dr. Hartmut Stadtler, Prof. Dr. Horst Tempelmeier und Prof. Dr. Gerhard Wäscher."
http://schema.org/genre
- "Llibres electrònics"
- "Online-Publikation"
- "Electronic books"@en
- "Electronic books"
http://schema.org/name
- "Multi-Stage Simultaneous Lot-Sizing and Scheduling Planning of Flow Lines with Shifting Bottlenecks"@en
- "Multi-Stage Simultaneous Lot-Sizing and Scheduling Planning of Flow Lines with Shifting Bottlenecks"
- "Multi-stage simultaneous lot-sizing and scheduling : planning of flow lines with shifting bottlenecks"
- "Multi-stage simultaneous lot-sizing and scheduling : planning of flow lines with shifting bottlenecks"@en
- "Multi-stage simultaneous lot-sizing and scheduling planning of flow lines with shifting bottlenecks"
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