计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2015年
12期
10-15
,共6页
风险分析%地震%国防工程%解释结构模型%组件
風險分析%地震%國防工程%解釋結構模型%組件
풍험분석%지진%국방공정%해석결구모형%조건
risk analysis%earthquake%military engineering%Interpretative Structural Modeling(ISM)%component
为探究国防工程震害风险体系内部规律和结构元素之间的相互关系,设计和实现了一种基于解释结构模型的国防工程震害风险分析结构模型组件。遵循解释结构模型的本质思想和工作程序,在确定国防工程震害风险分析体系逻辑关系的基础上,给出国防工程震害风险解释结构模型组件方案,研制基于窗体界面线程设计的国防工程震害风险分析解释结构模型算法组件,求解系统可达矩阵,构建多层递阶的国防工程震害风险结构模型。模型解释了国防工程震害风险体系的神经支撑结构、关键特征等层次关系和功能映射,风险评价的立足点在于“国防工程整体性工程风险”,关键特征包括区域地质环境变异元素、国防工程毁伤评估、国防工程主体结构风险等元素,为研究、探索、完善国防工程震害风险系统设计方法提供科学依据。
為探究國防工程震害風險體繫內部規律和結構元素之間的相互關繫,設計和實現瞭一種基于解釋結構模型的國防工程震害風險分析結構模型組件。遵循解釋結構模型的本質思想和工作程序,在確定國防工程震害風險分析體繫邏輯關繫的基礎上,給齣國防工程震害風險解釋結構模型組件方案,研製基于窗體界麵線程設計的國防工程震害風險分析解釋結構模型算法組件,求解繫統可達矩陣,構建多層遞階的國防工程震害風險結構模型。模型解釋瞭國防工程震害風險體繫的神經支撐結構、關鍵特徵等層次關繫和功能映射,風險評價的立足點在于“國防工程整體性工程風險”,關鍵特徵包括區域地質環境變異元素、國防工程燬傷評估、國防工程主體結構風險等元素,為研究、探索、完善國防工程震害風險繫統設計方法提供科學依據。
위탐구국방공정진해풍험체계내부규률화결구원소지간적상호관계,설계화실현료일충기우해석결구모형적국방공정진해풍험분석결구모형조건。준순해석결구모형적본질사상화공작정서,재학정국방공정진해풍험분석체계라집관계적기출상,급출국방공정진해풍험해석결구모형조건방안,연제기우창체계면선정설계적국방공정진해풍험분석해석결구모형산법조건,구해계통가체구진,구건다층체계적국방공정진해풍험결구모형。모형해석료국방공정진해풍험체계적신경지탱결구、관건특정등층차관계화공능영사,풍험평개적립족점재우“국방공정정체성공정풍험”,관건특정포괄구역지질배경변이원소、국방공정훼상평고、국방공정주체결구풍험등원소,위연구、탐색、완선국방공정진해풍험계통설계방법제공과학의거。
In order to explore the interior rules in earthquake-damaged risk system and the relationship among thus structural elements for military engineering, a model component is designed and implemented for earthquake-damaged risk system based on Interpretative Structural Modeling theory. Following the natural thinking and working procedures of Interpretative Structural Modeling, on the basis of logic relationship about earthquake-damaged risk system for military engineering, an ISM component scheme is given for earthquake-damaged risk system, solving system reaching matrix, which erects multi-level step-up structural model. Such model analyzes the system neural supporting structure, hierarchy relationship and func-tion mapping about the key characteristics. And, thus risk evaluating operations stand with the whole engineering risk of military engineering, and the key characteristics include regional geological environment variation, military engineering-damaged assessment, main structural risk of military engineering and other elements, which provide a scientific basis for studying, exploring and perfecting such earthquake-damaged risk system design about military engineering.