LIMIT OPERATION IN PROJECTIVE SPACE FOR CONSTRUCTING NECESSARY OPTIMALITY CONDITION OF POLYNOMIAL OPTIMIZATION PROBLEM

Q4 Decision Sciences Journal of the Operations Research Society of Japan Pub Date : 2020-10-31 DOI:10.15807/jorsj.63.114

Tomoyuki Iori, T. Ohtsuka

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Abstract

This paper proposes a necessary optimality condition derived by a limit operation in projective space for optimization problems of polynomial functions with constraints given as polynomial equations. The proposed condition is more general than the Karush-Kuhn-Tucker (KKT) conditions in the sense that no constraint qualification is required, which means the condition can be viewed as a necessary optimality condition for every minimizer. First, a sequential optimality condition for every minimizer is introduced on the basis of the quadratic penalty function method. To perform a limit operation in the sequential optimality condition, we next introduce the concept of projective space, which can be regarded as a union of Euclidian space and its points at infinity. Through the projective space, the limit operation can be reduced to computing a point of the tangent cone at the origin. Mathematical tools from algebraic geometry were used to compute the set of equations satisfied by all points in the tangent cone, and thus by all minimizers. Examples are provided to clarify the methodology and to demonstrate cases where some local minimizers do not satisfy the KKT conditions.

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构造多项式优化问题必要最优性条件的射影空间极限运算

对于约束形式为多项式方程的多项式函数优化问题，本文提出了用极限运算在射影空间中导出的一个必要最优性条件。在不需要约束条件的意义上，所提出的条件比Karush-Kuhn-Tucker (KKT)条件更一般，这意味着该条件可以被视为每个最小化器的必要最优性条件。首先，在二次罚函数法的基础上，引入了每一个最小化器的顺序最优性条件。为了在序列最优性条件下进行极限运算，我们引入了射影空间的概念，射影空间可以看作是欧几里得空间及其无穷远点的并。通过射影空间，极限运算可以简化为在原点处计算切锥的一个点。代数几何中的数学工具被用来计算切锥上所有点所满足的方程组，从而计算出所有最小值。举例说明了方法，并说明了一些局部最小值不满足KKT条件的情况。

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来源期刊

Journal of the Operations Research Society of Japan 管理科学-运筹学与管理科学

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

12 months

期刊介绍： The journal publishes original work and quality reviews in the field of operations research and management science to OR practitioners and researchers in two substantive categories: operations research methods; applications and practices of operations research in industry, public sector, and all areas of science and engineering.