基于二阶锥的方法求解信赖域子问题及其变体

A Second-Order Cone Based Approach for Solving the Trust-Region Subproblem and Its Variants

SIAM Journal on Optimization · 2017
被引 59
ABS 3

中文导读

研究了在单位球上最小化非凸二次函数的信赖域子问题,通过二阶锥方法给出精确凸重构,并推广到带锥约束的变体,适用于加速梯度下降等廉价迭代方法。

Abstract

We study the trust-region subproblem (TRS) of minimizing a nonconvex quadratic function over the unit ball with additional conic constraints. Despite having a nonconvex objective, it is known that the classical TRS and a number of its variants are polynomial-time solvable. In this paper, we follow a second-order cone (SOC) based approach to derive an exact convex reformulation of the TRS under a structural condition on the conic constraint. Our structural condition is immediately satisfied when there are no additional conic constraints, and it generalizes several such conditions studied in the literature. As a result, our study highlights an explicit connection between the classical nonconvex TRS and smooth convex quadratic minimization, which allows for the application of cheap iterative methods such as Nesterov's accelerated gradient descent, to the TRS. Furthermore, under slightly stronger conditions, we give a low-complexity characterization of the convex hull of the epigraph of the nonconvex quadratic function intersected with the constraints defining the domain without any additional variables. We also explore the inclusion of additional hollow constraints to the domain of the TRS, and convexification of the associated epigraph.

优化理论凸优化二阶锥规划非凸二次规划