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首页> 外文期刊>Journal of Ship Production >Development of a Logic-Based Product Life-Cycle Management (LBPLM) System for Shipbuilding Industry-Conceptual Development
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Development of a Logic-Based Product Life-Cycle Management (LBPLM) System for Shipbuilding Industry-Conceptual Development

机译:基于逻辑的产品生命周期管理(LBPLM)系统开发,用于造船业的概念开发

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摘要

Product life-cycle management (PLM) has become something like "a magic wand" for various industries because of its capability to integrate different product modules via online network through the product's complete life cycle and hence to provide one-window access, thereby making the whole processes of product conception, design, manufacturing, delivery, maintenance, and disposal integrated with a reduction in product development time and cost. However, heavy industries (i.e., shipbuilding and shipbreaking) are different from consumer product industries because of high customization in design process and engineering software, widely varying scales of operations, and less compatibility between different design and production processes, for example, ship production is planned in activity-driven network scheduling system, in general, and is assumed to be more of a construction process or assembly process rather than a production process. In this paper, we present the conceptual development and the basic building concepts for a logic-based PLM system for the shipbuilding industry. Our logic bases consist of modularization, standardization, geographical zoning, and functional zoning. The logic bases of modularization and standardization are used in the ship design and production processes, and the logic bases of geographical zoning and functional zoning are used in "logically grouping" the on-board activities in the ship production process. Overall, this paper introduces a logic-driven methodology for PLM: planning and integration of ship design and production processes. Finally, in our implementation we show that by developing a logic-based PLM system the ship design and production processes become more streamlined and better planned and executed.
机译:产品生命周期管理(PLM)已成为各个行业的“魔杖”,因为它具有通过整个产品生命周期的在线网络集成不同产品模块的能力,因此可以提供单窗口访问,从而使产品构思,设计,制造,交付,维护和处置的全过程结合在一起,从而减少了产品开发时间和成本。但是,重工业(即造船和拆船)与消费品行业不同,这是因为设计过程和工程软件的高度定制化,广泛的经营规模以及不同的设计和生产过程之间的兼容性较差,例如,船舶生产是通常在活动驱动的网络调度系统中进行计划,并且假定该过程更多地是建造过程或组装过程,而不是生产过程。在本文中,我们介绍了造船业基于逻辑的PLM系统的概念发展和基本建造概念。我们的逻辑基础包括模块化,标准化,地理分区和功能分区。模块化和标准化的逻辑基础用于船舶设计和生产过程,而地理分区和功能分区的逻辑基础则用于“逻辑分组”船舶生产过程中的船上活动。总体而言,本文介绍了一种逻辑驱动的PLM方法:船舶设计和生产过程的计划和集成。最后,在我们的实施中,我们表明,通过开发基于逻辑的PLM系统,船舶的设计和生产过程将变得更加精简,更好地计划和执行。

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  • 来源
    《Journal of Ship Production》 |2010年第4期|p.231-251|共21页
  • 作者

    R. Sharma; Tae-wan Kim;

  • 作者单位

    Department of Ocean Engineering, Indian Institute of Technology Madras, Chennai, India;

    rnDepartment of Naval Architecture and Ocean Engineering and Research Institute of Marine Systems Engineering, Seoul National University, Seoul, Republic of Korea;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    systems engineering; shipbuilding;

    机译:系统工程;造船;

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