电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2012年
16期
76-81
,共6页
赖晓文%陈启鑫%夏清%赵翔宇%杨明辉%张健
賴曉文%陳啟鑫%夏清%趙翔宇%楊明輝%張健
뢰효문%진계흠%하청%조상우%양명휘%장건
智能电网%可视化%可缩放矢量图形%方法库%人机交互响应%电力系统
智能電網%可視化%可縮放矢量圖形%方法庫%人機交互響應%電力繫統
지능전망%가시화%가축방시량도형%방법고%인궤교호향응%전력계통
smart grid%visualization%scalable vector graphics (SVG)%methods library%human-computer interaction%power systems
先进的可视化技术是提高电网运行智能化水平的重要途径。文中以可缩放矢量图形(SVG)技术为核心,开发了统一、兼容、集成的电力系统可视化平台与标准的可视化方法库;构建了基于SVG技术的可扩展的可视化应用平台,可在一个统一的平台框架内兼容并集成多类可视化资源;开发了一整套基于SVG技术与地理信息图形的空间数据可视化方法,实现了与电网网架结构和数据模型的高效、自动匹配;形成了具有标准的面向对象接口的可视化方法库,具有高度的灵活性和可移植性,提高了开发效率;提出并实现了横向集成、纵向挖掘、学习式与预知式的智能人机交互方式,使可视化技术具有一定的感知能力,有利于提高电网运行人员对于电网运行数据与信息的感知能力与分析效率。
先進的可視化技術是提高電網運行智能化水平的重要途徑。文中以可縮放矢量圖形(SVG)技術為覈心,開髮瞭統一、兼容、集成的電力繫統可視化平檯與標準的可視化方法庫;構建瞭基于SVG技術的可擴展的可視化應用平檯,可在一箇統一的平檯框架內兼容併集成多類可視化資源;開髮瞭一整套基于SVG技術與地理信息圖形的空間數據可視化方法,實現瞭與電網網架結構和數據模型的高效、自動匹配;形成瞭具有標準的麵嚮對象接口的可視化方法庫,具有高度的靈活性和可移植性,提高瞭開髮效率;提齣併實現瞭橫嚮集成、縱嚮挖掘、學習式與預知式的智能人機交互方式,使可視化技術具有一定的感知能力,有利于提高電網運行人員對于電網運行數據與信息的感知能力與分析效率。
선진적가시화기술시제고전망운행지능화수평적중요도경。문중이가축방시량도형(SVG)기술위핵심,개발료통일、겸용、집성적전력계통가시화평태여표준적가시화방법고;구건료기우SVG기술적가확전적가시화응용평태,가재일개통일적평태광가내겸용병집성다류가시화자원;개발료일정투기우SVG기술여지리신식도형적공간수거가시화방법,실현료여전망망가결구화수거모형적고효、자동필배;형성료구유표준적면향대상접구적가시화방법고,구유고도적령활성화가이식성,제고료개발효솔;제출병실현료횡향집성、종향알굴、학습식여예지식적지능인궤교호방식,사가시화기술구유일정적감지능력,유리우제고전망운행인원대우전망운행수거여신식적감지능력여분석효솔。
Modern visualization technology is an important option to improve the intelligence of power system operation. Based on scalable vector graphics (SVG) technology, a unified, compatible, integrated power system visualization platform and standard visualization methods library are developed. The platform can supportvarious visualization technologies including SVG with better compatibility and integration of different types of visualization tools. A visualization methods library based on SVG and geographic information is developed, which automatically matches the actual power grid model and data format. The methods library is flexible, portable and efficient with a standard object-oriented interface. Moreover, integration is realized of intelligent human-computer interaction in the visualization platform and the method library, implementing technologies of similar information integration, data mining, machine learning and forecasting. The intelligent human-computer interaction is beneficial to improving the perceptive and analytic ability of system operators towards power system operation.
