系统工程理论与实践
繫統工程理論與實踐
계통공정이론여실천
Systems Engineering—Theory & Practice
2012年
4期
867~871
,共null页
水安全 风险评价 干旱期 改进的熵权方法 泛系观控理论 海河流域
水安全 風險評價 榦旱期 改進的熵權方法 汎繫觀控理論 海河流域
수안전 풍험평개 간한기 개진적적권방법 범계관공이론 해하류역
water security; risk assessment; drought period; improved entropy weight; pansystems observationcontrol theory; Haihe river basin
针对干旱期水安全风险评价惯用的风险指数(DRI)计算中指标权重难以确定的问题,采用改进的熵权方法确定了计算DRI各指标项的权重;通常指标权重对DRI的计算影响较大,为更深入地探讨干旱期水安全风险变化特性,根据泛系观控理论研究了干旱期水安全评价各方案的风险及其比较收益,并从信息熵的角度以约束信息量对各方案的风险进行了定性及定量分析,在海河流域水安全风险评价应用表明,该方法揭示了干旱期水安全风险的内在规定性,可应用于水安全风险评价中,所得结果可为海河流域干旱期水安全风险管理提供决策参考.
針對榦旱期水安全風險評價慣用的風險指數(DRI)計算中指標權重難以確定的問題,採用改進的熵權方法確定瞭計算DRI各指標項的權重;通常指標權重對DRI的計算影響較大,為更深入地探討榦旱期水安全風險變化特性,根據汎繫觀控理論研究瞭榦旱期水安全評價各方案的風險及其比較收益,併從信息熵的角度以約束信息量對各方案的風險進行瞭定性及定量分析,在海河流域水安全風險評價應用錶明,該方法揭示瞭榦旱期水安全風險的內在規定性,可應用于水安全風險評價中,所得結果可為海河流域榦旱期水安全風險管理提供決策參攷.
침대간한기수안전풍험평개관용적풍험지수(DRI)계산중지표권중난이학정적문제,채용개진적적권방법학정료계산DRI각지표항적권중;통상지표권중대DRI적계산영향교대,위경심입지탐토간한기수안전풍험변화특성,근거범계관공이론연구료간한기수안전평개각방안적풍험급기비교수익,병종신식적적각도이약속신식량대각방안적풍험진행료정성급정량분석,재해하류역수안전풍험평개응용표명,해방법게시료간한기수안전풍험적내재규정성,가응용우수안전풍험평개중,소득결과가위해하류역간한기수안전풍험관리제공결책삼고.
Risk assessment of water security during drought period is an important content in risk management of drought,the assessment results guides the implement of decision directly.The improved entropy weight method is applied to calculate the weights of DRI which is usually used in the risk assessment of water security during drought period due to the current study says the weights of indices are difficult to determine.Because the weights of indices affects the DRI,to discuss the risk change characteristic deep, the risk and its gain of every alternative is studied based on pansystems observation-control methodology, the risk of every alternative is analyzed qualitatively and quantitatively from the point of information entropy with binding information in the risk assessment of water security during drought period.The case study in Haihe river basin demonstrates that the viewing-controlling risk methodology reflects the internal instinct of risk of water security during drought period,and is applicable to the risk assessment of water security during drought period.The obtained results are helpful to water security risk management during drought period for Haihe river basin.