Search for dissertations about: "Load Balancing"
Showing result 21 - 25 of 85 swedish dissertations containing the words Load Balancing.
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21. Health and ill health in working women – balancing work and recovery
Abstract : Work conditions within the public health care sector are physically and psychosocially demanding. This means that balancing work with recovery is essential for employees in order to avoid ill health and stay healthy. This thesis is based on four studies. READ MORE
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22. On using mobile agents for load balancing in high performance computing
Abstract : One recent advance in software technology is the development of software agents that can adapt to changes in their environment and can cooperate and coordinate their activities to complete a given task. Such agents can be distributed over a network. READ MORE
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23. Mathematical Modelling and Methods for Load Balancing and Coordination of Multi-Robot Stations
Abstract : The automotive industry is moving from mass production towards an individualized production, individualizing parts aims to improve product quality and to reduce costs and material waste. This thesis concerns aspects of load balancing and coordination of multi-robot stations in the automotive manufacturing industry, considering efficient algorithms required by an individualized production. READ MORE
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24. Mathematical Modelling for Load Balancing and Minimization of Coordination Losses in Multirobot Stations
Abstract : The automotive industry is moving from mass production towards an individualized production, in order to improve product quality and reduce costs and material waste. This thesis concerns aspects of load balancing of industrial robots in the automotive manufacturing industry, considering efficient algorithms required by an individualized production. READ MORE
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25. Efficient Partitioning of Dynamic Structured Grid Hierarchies
Abstract : This thesis aims at decreasing execution time for large-scale structured adaptive mesh refinement (SAMR) applications executing on general parallel computers. The key contributions are (1) A conceptual dynamically adaptive meta-partitioner able to select and configure an appropriate partitioning technique, based on application and computer state, and (2) A characterization of new and existing domain-based partitioners, enabling a mapping from application and computer state onto appropriate partitioners, and (3) Sketched scalable solutions, expressed in terms of natural regions and expert algorithms, for the problem to efficiently partition large-scale SAMR applications with deep grid hierarchies executing on general parallel computers, and (4) A software partitioning tool Nature+Fable, implementing the greater parts of these sketched scalable solutions and engineered as part of the meta-partitioner. READ MORE