科技和产业
科技和產業
과기화산업
SCIENCE TECHNOLOGY AND INDUSTRIAL
2014年
6期
107~110
,共null页
模糊层次分析法 安全隐患 桥梁检测
模糊層次分析法 安全隱患 橋樑檢測
모호층차분석법 안전은환 교량검측
FAHP ; security risks ; bridge inspection
桥梁总体技术状况评定过程比较复杂,现场检测的过程中(分值为0~100)细微的分值差异就可能造成桥梁等级的变化.文章采用模糊层次分析法分析出桥梁总体技术状况的主要影响因素为上部承重结构、桥墩和上部一般构件;用模糊判断矩阵的0和1来代替100分制的打分系统,降低了得分的随机性;并通过实例进行了实际运用.
橋樑總體技術狀況評定過程比較複雜,現場檢測的過程中(分值為0~100)細微的分值差異就可能造成橋樑等級的變化.文章採用模糊層次分析法分析齣橋樑總體技術狀況的主要影響因素為上部承重結構、橋墩和上部一般構件;用模糊判斷矩陣的0和1來代替100分製的打分繫統,降低瞭得分的隨機性;併通過實例進行瞭實際運用.
교량총체기술상황평정과정비교복잡,현장검측적과정중(분치위0~100)세미적분치차이취가능조성교량등급적변화.문장채용모호층차분석법분석출교량총체기술상황적주요영향인소위상부승중결구、교돈화상부일반구건;용모호판단구진적0화1래대체100분제적타분계통,강저료득분적수궤성;병통과실례진행료실제운용.
Bridges overall technical condition assessment process is comparatively complex. Subtle scoring differences in field test may cause chan ges in levels of bridge. With the Fuzzy Analytical Hierarchy Process (FAHP), the article finds out the main factors affecting the overall technical condition of the bridge, which are upper bearing structure, general members of piers and the upper part. What's more, the article uses fuzzy judgment matrixes 0 and 1 instead of 100-point scoring system so as to reduce the score randomness. Using this method to practical examples.