The development of an aircraft industrial system is a complex process which faces the challenge of digital discontinuity in multidisciplinary engineering due to various interfaces between different digital tools, leading to extra development time and costs. This paper proposes an ontology-based system, aiming at functionality integration and design process automation, by Models for Manufacturing methodology principles. A tool-agnostic modelling, simulation and validation platform with Discrete Event Simulation and 3D simulation is enabled and demonstrated in a real case study. An ontology layer collecting the domain knowledge enables integration of the proposed system, accelerating the design process and enhancing design quality.
翻译:飞机工业系统的开发是一个复杂的过程,由于不同数字工具之间的各种接口,在多学科工程中面临数字不连续的挑战,从而导致额外的开发时间和费用,本文件提议了一种基于本体学的系统,目的是根据制造模型方法原则实现功能整合和设计过程自动化,在实际案例研究中启用并演示一个具有分辨事件模拟和3D模拟的工具诊断模型、模拟和验证平台,收集域知识的本体层有助于整合拟议的系统,加快设计过程和提高设计质量。