现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2013年
23期
4-8
,共5页
机理模型%模拟训练器%信号流程%操作训练模拟器
機理模型%模擬訓練器%信號流程%操作訓練模擬器
궤리모형%모의훈련기%신호류정%조작훈련모의기
mechanism model%simulation training aid%signal flow%simulator for operation training
针对面向电子装备战斗操作训练和技术维修训练的模拟器,研究机理模型建模问题。首先总结了当前主要的建模方法,进而根据模块化思想,提出了基于信号流程建立电子装备的机理模型,共分为装备分解,提取信号流程图、建立子模型、建立完整机理模型等四个步骤。阐明了建模过程,重点介绍了如何构建子模型和完整模型。讨论了模型的时间管理机制,多分辨率建模等问题,分析了该方法在故障建模中的应用,并提出了一个三级分辨率的机理模型体系。该方法的创新点包括:通过调整模型分辨率,可以兼容其他主要建模方法;同时能有效解决故障装备机理建模的问题。分析表明,该方法可以满足当前模拟器在各个层次上对机理模型的需求。
針對麵嚮電子裝備戰鬥操作訓練和技術維脩訓練的模擬器,研究機理模型建模問題。首先總結瞭噹前主要的建模方法,進而根據模塊化思想,提齣瞭基于信號流程建立電子裝備的機理模型,共分為裝備分解,提取信號流程圖、建立子模型、建立完整機理模型等四箇步驟。闡明瞭建模過程,重點介紹瞭如何構建子模型和完整模型。討論瞭模型的時間管理機製,多分辨率建模等問題,分析瞭該方法在故障建模中的應用,併提齣瞭一箇三級分辨率的機理模型體繫。該方法的創新點包括:通過調整模型分辨率,可以兼容其他主要建模方法;同時能有效解決故障裝備機理建模的問題。分析錶明,該方法可以滿足噹前模擬器在各箇層次上對機理模型的需求。
침대면향전자장비전두조작훈련화기술유수훈련적모의기,연구궤리모형건모문제。수선총결료당전주요적건모방법,진이근거모괴화사상,제출료기우신호류정건립전자장비적궤리모형,공분위장비분해,제취신호류정도、건립자모형、건립완정궤리모형등사개보취。천명료건모과정,중점개소료여하구건자모형화완정모형。토론료모형적시간관리궤제,다분변솔건모등문제,분석료해방법재고장건모중적응용,병제출료일개삼급분변솔적궤리모형체계。해방법적창신점포괄:통과조정모형분변솔,가이겸용기타주요건모방법;동시능유효해결고장장비궤리건모적문제。분석표명,해방법가이만족당전모의기재각개층차상대궤리모형적수구。
Aiming at the electronic equipment simulator,the mechanism modeling method is researched. The main modeling methods are summarized. The electronic equipment mechanism model based on signal flow is proposed according to the modular modeling theory,which includes four steps:equipment decomposition,signal flow chart extraction,sub-model establishment and complete model establishment. The modeling process is introduced. The sub-models and the structure of the complete model are introduced emphatically. The multi-resolution modeling (MRM) and time management mechanism of the model are discussed. The application of this new method in the fault modeling is analyzed. A mechanism modeling system with 3-level-resolution is put forward. The innovations include:the method is compatible with other modeling methods by adjusting the resolution, and it is an ution to the problem of fault equipment modeling can be solved effectively. Analysis result shows that proposed method can meet the demands of mechanism model for simulators at different levels.