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摘 要:针对目前飞机维修培训中拆装流程复杂,系统模型繁多的问题,采用层#br# 次化分析法和UML 状态机相结合的建模方法,建立飞机组件的拆装过程模型。运用UML#br# 状态机建立拆卸组件的状态、迁移和约束模型,规范拆卸零部件模型的统一性表达,提高建#br# 模的效率。利用层次化方法对零部件进行层次规划,实现拆卸目标组件的有序逻辑表述,实#br# 时监测拆卸零部件的状态,从而建立仿真程度高的训练模型。最后,以维修培训平台中飞机#br# 某组件的拆装为例,验证层次化UML 状态机拆卸过程仿真方法的有效性。#br# 关 键 词:维修培训;层次化分析;状态机;拆装模型
Abstract: To address the problems of non-simple disassembly and assembly procedure,#br# enormous system models in the Aircraft Maintenance Training System, a process modeling#br# method, combining UML state machine and hierarchical analysis, is presented. UML state#br# machine is used to build models of the state, migration and constraints of the components, to unify#br# specification expression of component model, and to improve the efficiency of modeling. The#br# Hierarchical analysis is used to achieve a logical and orderly presentation. Through real-time#br# monitoring the parts, a high degree of simulation training model is established. Final adoption of#br# virtual disassembly of some Aero-component indicates that the method is feasible.#br# Key words: maintenance training; hierarchical analysis; state machine; disassembly and#br# assembly model
摘要: 针对目前飞机维修培训中拆装流程复杂,系统模型繁多的问题,采用层
次化分析法和UML 状态机相结合的建模方法,建立飞机组件的拆装过程模型。运用UML
状态机建立拆卸组件的状态、迁移和约束模型,规范拆卸零部件模型的统一性表达,提高建
模的效率。利用层次化方法对零部件进行层次规划,实现拆卸目标组件的有序逻辑表述,实
时监测拆卸零部件的状态,从而建立仿真程度高的训练模型。最后,以维修培训平台中飞机
某组件的拆装为例,验证层次化UML 状态机拆卸过程仿真方法的有效性。
