基于模型挖掘和实验设计技术的流程开发

J. Abonyi
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引用次数: 0

摘要

现代产品和过程开发工具必须满足广泛的需求。最小化实验的数量,同时最大化产生的信息量只是一个方面。时间限制和技术的限制以及特定的客户需求是必要的边界条件,在规划实验时必须考虑。此外,实验必须尽早产生有关项目可行性的可靠信息。仅用于实验统计设计的商业工具无法以可接受的成本效益比满足这些要求。这就是为什么提出的方法的关键是整合现有的方法、模型和信息来源,以探索有用的知识。为了探索和转移操作和优化产品、技术和业务流程所需的所有有用知识,申请人的研究旨在开发一种集成异构信息源和异构模型的新方法。所提出的方法可以称为模型挖掘,因为它不仅基于从历史过程数据中提取和转换信息,还基于从不同类型的过程模型中提取和转换信息。这个新概念的引入需要开发新的算法和工具来进行模型分析、约简和信息集成。为此,基于模糊系统的建模、聚类和可视化算法得到了发展。为解决复杂和矛盾的目标,提出了一种基于可视化和交互式进化算法的新方法。本文的目的是提供这些方法的概述。
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Process development based on model mining and experiment design techniques
Modern product and process development tools must meet wide-range of requirements. Minimizing the number of experiments while maximizing of the amount of information generated is only one aspect. Time restrictions and constraints imposed by the technology as well as specific customer demands are imperative boundary conditions which must be considered when planning an experiment. Furthermore, the experiment must yield reliable information regarding the feasibility of a project as early as possible. Commercial tools for statistical design of experiments alone cannot meet these requirements at an acceptable cost-benefit ratio. That is why the key of the proposed approach is to integrate the existing methods, models and information sources to explore useful knowledge. To explore and transfer all the useful knowledge needed to operate and optimize products, technologies and the business processes, the research of the applicant aimed the development of a novel methodology to integrate heterogeneous information sources and heterogeneous models. The proposed methodology can be referred as model mining, since it is based on the extraction and transformation of information not only from historical process data but also from different type of process models. The introduction of this novel concept requires the development of new algorithms and tools for model analysis, reduction and information integration. For this purpose fuzzy systems based modeling, clustering and visualization algorithms have been developed. To handle complex and contradictory goals a novel approach has been worked out based on visualization an interactive evolutionary algorithms. The aim of this paper is to provide an overview of these approaches.
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