A block active set algorithm with spectral choice line search for the symmetric eigenvalue complementarity problem

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摘要

In this paper, we address the solution of the symmetric eigenvalue complementarity problem (EiCP) by treating an equivalent reformulation of finding a stationary point of a fractional quadratic program on the unit simplex. The spectral projected-gradient (SPG) method has been recommended to this optimization problem when the dimension of the symmetric EiCP is large and the accuracy of the solution is not a very important issue. We suggest a new algorithm which combines elements from the SPG method and the block active set method, where the latter was originally designed for box constrained quadratic programs. In the new algorithm the projection onto the unit simplex in the SPG method is replaced by the much cheaper projection onto a box. This can be of particular advantage for large and sparse symmetric EiCPs. Global convergence to a solution of the symmetric EiCP is established. Computational experience with medium and large symmetric EiCPs is reported to illustrate the efficacy and efficiency of the new algorithm.

论文关键词:Complementarity problems,Eigenvalue problems,Nonlinear programming,Large-scale optimization

论文评审过程:Received 8 May 2016, Revised 22 August 2016, Accepted 5 September 2016, Available online 19 September 2016, Version of Record 19 September 2016.

论文官网地址:https://doi.org/10.1016/j.amc.2016.09.005