电力系统最小信息损失状态估计的信息学原理  被引量:7

INFORMATION PRINCIPLE FOR STATE ESTIMATION IN POWER SYSTEMS BASED ON MINIMUM INFORMATION LOSS

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作  者:孙宏斌[1] 高峰[1] 张伯明[1] 杨滢[1] 

机构地区:[1]清华大学电机工程与应用电子技术系,北京市海淀区100084

出  处:《中国电机工程学报》2005年第6期11-16,共6页Proceedings of the CSEE

基  金:国家自然科学基金项目(50107005)。~~

摘  要:状态估计作为能量管理系统(EMS)和实时电力市场的基础和核心,正在变得日益重要。该文从信息科学的新视角,对电力系统状态估计的数学基础进行了研究。根据最小信息损失(MIL)决策原理,提出了能够适用于各种概率分布的通用的 MIL 状态估计新原理。并在理论上证明了加权最加权最小二乘(WLAV)估计法都是MIL 状态估计的特例,将传统状态估计方法在信息学的意义上统一起来,赋予了传统状态估计方法全新的信息学内涵。在 MIL 意义上,针对次输电系统和配电系统状态估计中普遍采用的电流幅值量测,得到了大电流是 WLS 估计法的近似条件。用算例比较了 MIL 和 WLS 状态估计的估计结果,进一步验证了 WLS 法在非正态分布时的近似条件。Researches on mathematic foundation of power system state estimation is done from the viewpoint of information theory. A novel and general principle of minimum information loss (MIL) for state estimation is presented to fit for various probability density distribution of measurement. The inner relationship between the MIL and traditional state estimation method is studied. It is proved theoretically that the traditional weighted least square (WLS) and weighted least absolute value (WLAV) state estimation methods are both the special cases of the proposed MIL based state estimation. And then these traditional state estimation methods are endowed with the connotation of information science. A research on how a current magnitude measurement is available in WLS state estimation for sub-transmission system and distribution system has been done and the result shows that a large enough current magnitude is a necessary condition for a WLS state estimation effective.. Comparison between the proposed MIL method and the traditional WLS method is carried out by several numerical tests, and the approximate condition of WLS state estimation method under non-Gaussian distribution is verified.

关 键 词:信息损失 电力系统 信息学 状态估计方法 能量管理系统 加权最小二乘 近似条件 非正态分布 MIL WLS 电力市场 信息科学 数学基础 决策原理 概率分布 配电系统 输电系统 估计法 绝对值 大电流 传统 

分 类 号:TM712[电气工程—电力系统及自动化] O212.4[理学—概率论与数理统计]

 

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