An application of interior point quadratic programming algorithm to power system optimization problems

Proceedings of Power Industry Computer Applications Conference Pub Date : 1995-05-07 DOI:10.1109/PICA.1995.515171

Hua Wei, Hiroshi Sasaki, Takeshi Nagata

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引用次数: 82

Abstract

This paper presents a new interior point quadratic programming algorithm which can solve power system optimization problems with significantly less computational efforts. The proposed algorithm has the following two special features. First, it is based on the path-following interior point algorithm whose search direction is the Newton direction, and therefore the algorithm has quadratic convergence. In the second place, it solves directly a symmetric indefinite system and thus the algorithm avoids the formation of [AD/sup -1/A/sup T/] and as a result generates fewer fill-ins than the case of factorizing the positive definite system matrix for large scale power systems. This has brought about a profound speed-up. Since the formulae of the interior point method have been deduced more generally, the proposed algorithm can start from either a feasible (interior point) or an infeasible point (noninterior point). Numerical results on the IEEE test systems and a Japanese 344 bus system have verified that the proposed algorithm possesses enough robustness and needs significantly less solution time compared with already reported applications of the interior point method.

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内点二次规划算法在电力系统优化问题中的应用

本文提出了一种新的内点二次规划算法，它能以更少的计算量求解电力系统优化问题。该算法具有以下两个特点。首先，该算法基于路径跟随内点算法，其搜索方向为牛顿方向，具有二次收敛性。其次，该算法直接求解一个对称不定系统，避免了[AD/sup -1/ a /sup T/]的形成，与对大型电力系统进行正定系统矩阵分解相比，产生的填充量更少。这大大加快了发展速度。由于内点法的公式推导更为一般，因此该算法既可以从可行点(内点)出发，也可以从不可行的点(非内点)出发。在IEEE测试系统和日本344总线系统上的数值结果表明，该算法具有足够的鲁棒性，与已有报道的内点法相比，求解时间明显缩短。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of Power Industry Computer Applications Conference

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