In this dissertation a modeling language for interdisciplinary
requirements engineering and functional specification of Manufacturing Execution Systems is developed. The “MES-Modeling Language” is designed as domain-specific language based on BPMN 2.0. It aims to support the identification of potentials for optimization in business and production processes, as well as a more efficient and valid requirements engineering. By prototype-based field tests in the manufacturing and process industry the achievement of these objectives is evaluated.
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In this dissertation a modeling language for interdisciplinary
requirements engineering and functional specification of Manufacturing Execution Systems is developed. The “MES-Modeling Language” is designed as domain-specific language based on BPMN 2.0. It aims to support the identification of potentials for optimization in business and production processes, as well as a more efficient and valid requirements engineering. By prototype-based field tests in the manufacturing and process industry th...
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