Search for dissertations about: "engineer to order"
Showing result 1 - 5 of 99 swedish dissertations containing the words engineer to order.
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1. Tactical planning in engineer-to-order environments
Abstract : Tactical planning is implemented to balance customer demand and supply capacity within a medium-term and to avoid under- and overcapacity. In engineer-to-order (ETO) environments, under- and overcapacity lead firms to incur substantial costs that can easily wipe out profit margins. READ MORE
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2. The Role of Production Topology in Information Based Structuring of Organizations : The design of craft-based and industrialized construction firms
Abstract : Industrialization of construction is a business strategy to significantly improve competitiveness. However, the organization structure of the construction firms needs to support the new production system. The knowledge on why and how this business development can be accomplished is scarce, both within academia and in business practice. READ MORE
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3. Towards enhanced sales and operations planning : Using machine learning for decision support in an engineer-to-order context
Abstract : All companies deal with tactical planning questions and decisions, for example balance demand and supply, to be able to create an acceptable delivery ability without too much inventory or resources/capacities. For that, some companies use Sales and Operations Planning (S&OP) as their tactical planning process. READ MORE
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4. Embracing the data flood : integrating diverse data to improve phenotype association discovery in forest trees
Abstract : Complex traits represent valuable research targets as many highly desirable properties of plants and animals (such as growth rate and height) fall into this group. However, associating biological markers with these traits is incredibly challenging, in part due to their small effect sizes. READ MORE
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5. Development and Validation of a Numerical Tool for the Aeromechanical Design of Turbomachinery
Abstract : In aeromechanical design one of the major rules is to operate under High Cyclic Fatigue (HCF) margins and away from flutter. The level of dynamic excitations and risk of HCF can be estimated by performing forced response analyses from blade row interaction forces or Low Engine Order (LEO) excitation mechanisms. READ MORE