中国电机工程学报
中國電機工程學報
중국전궤공정학보
Proceedings of the CSEE
2015年
22期
5731-5739
,共9页
空间负荷预测%地理信息系统%电力负荷空间分辨率%多尺度%空间误差%电力系统规划
空間負荷預測%地理信息繫統%電力負荷空間分辨率%多呎度%空間誤差%電力繫統規劃
공간부하예측%지리신식계통%전력부하공간분변솔%다척도%공간오차%전력계통규화
spatial load forecasting (SLF)%geographic information system (GIS)%spatial resolution of electric load (SREL)%multi-scale%spatial error%power system planning
针对如何评估空间负荷预测(spatial load forecasting, SLF)中空间误差的难题,提出了基于多尺度空间分辨率的空间负荷预测误差评价方法。该方法考虑到 SLF 的局部预测误差会对整个预测区域产生影响,从如何计算局部预测误差给其他位置预测值带来影响的问题入手,将极端场景作为边界条件分析SLF 结果的误差地图,揭示了在不同空间分辨率下,对相同的空间预测误差的感知程度多数情况并不一样,甚至还可能完全相反的演变规律,建立了针对既有网架结构、供电容量和规划目标年负荷水平的SLF 误差评价机制,给出了SLF 误差评价指标。运用该方法对东北某市的一个行政区进行空间负荷预测的工程实例表明,所提出的 SLF 误差评价方法是行之有效的。
針對如何評估空間負荷預測(spatial load forecasting, SLF)中空間誤差的難題,提齣瞭基于多呎度空間分辨率的空間負荷預測誤差評價方法。該方法攷慮到 SLF 的跼部預測誤差會對整箇預測區域產生影響,從如何計算跼部預測誤差給其他位置預測值帶來影響的問題入手,將極耑場景作為邊界條件分析SLF 結果的誤差地圖,揭示瞭在不同空間分辨率下,對相同的空間預測誤差的感知程度多數情況併不一樣,甚至還可能完全相反的縯變規律,建立瞭針對既有網架結構、供電容量和規劃目標年負荷水平的SLF 誤差評價機製,給齣瞭SLF 誤差評價指標。運用該方法對東北某市的一箇行政區進行空間負荷預測的工程實例錶明,所提齣的 SLF 誤差評價方法是行之有效的。
침대여하평고공간부하예측(spatial load forecasting, SLF)중공간오차적난제,제출료기우다척도공간분변솔적공간부하예측오차평개방법。해방법고필도 SLF 적국부예측오차회대정개예측구역산생영향,종여하계산국부예측오차급기타위치예측치대래영향적문제입수,장겁단장경작위변계조건분석SLF 결과적오차지도,게시료재불동공간분변솔하,대상동적공간예측오차적감지정도다수정황병불일양,심지환가능완전상반적연변규률,건립료침대기유망가결구、공전용량화규화목표년부하수평적SLF 오차평개궤제,급출료SLF 오차평개지표。운용해방법대동북모시적일개행정구진행공간부하예측적공정실례표명,소제출적 SLF 오차평개방법시행지유효적。
Faced with the difficult problem how to evaluate spatial error in spatial load forecasting (SLF), the error evaluation method of SLF based on the multi-scale spatial resolution was proposed. Considering local forecasting error impacts on the SLF error of the whole, how to calculate local forecasting error impact on the predicted load value of another location was studied firstly. The extreme scenarios were used as boundary conditions to analyze the error map of SLF results. Under different spatial resolutions, it is brought to light that the degree of perception is different for the same spatial error and the evolution regular changes to be even completely opposite. Aiming at the structure and the supply capacity of existing power grid, and the load level of planning target-year, spatial error evaluation mechanism was established. At the same time, the evaluation index for SLF error was provided. The method of spatial load forecasting error evaluation based on the multi-scale spatial resolution was applied to spatial load forecasting in an administrative region of a northeast city, and is proved to be effective.