学习切线超曲面快速评估瞬态稳定性

[1993] Proceedings of the Second International Forum on Applications of Neural Networks to Power Systems Pub Date : 1993-04-19 DOI:10.1109/ANN.1993.264302

M. Djukanovic, D. Sobajic, Y. Pao

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引用次数: 7

摘要

提出了一种新的多机电力系统暂态安全评估的直接方法。在一类不稳定平衡点(UEP)附近的状态空间中，由瞬态能量函数的泰勒级数展开得到切超曲面，得到了稳定边界的局部逼近。通过考虑超曲面的二阶系数或二阶系数和三阶系数，提出了两种估计稳定区域的方法。文中描述了两个典型电力系统的结果，并与超平面方法进行了比较，证明了该方法的优越性及其在实际电力系统中的应用潜力。利用人工神经网络来确定不受操作条件影响的超曲面的未知系数。

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Learning tangent hypersurfaces for fast assessment of transient stability

A new direct method for transient security assessment of multimachine power systems is presented. A local approximation of the stability boundary is made by tangent hypersurfaces which are developed from Taylor series expansion of the transient energy function in the state space nearby a certain class of unstable equilibrium points (UEP). Two approaches for an estimation of the stability region are proposed by taking into account the second order coefficients or alternatively, the second and third order coefficients of the hypersurfaces. Results for two representative power systems are described and a comparison is made with the hyperplane method, demonstrating the superiority of the proposed approach and its potential in real power system applications. Artificial neural networks are used to determine the unknown coefficients of the hypersurfaces independently of operating conditions.<>

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[1993] Proceedings of the Second International Forum on Applications of Neural Networks to Power Systems

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