Jingyong Tang scite author profile

A new one-step smoothing newton method for second-order cone programmingApplications of Mathematics, Vol. 57 (2012) Abstract. In this paper, we present a new one-step smoothing Newton method for solving the second-order cone programming (SOCP). Based on a new smoothing function of the well-known Fischer-Burmeister function, the SOCP is approximated by a family of parameterized smooth equations. Our algorithm solves only one system of linear equations and performs only one Armijo-type line search at each iteration. It can start from an arbitrary initial point and does not require the iterative points to be in the sets of strictly feasible solutions. Without requiring strict complementarity at the SOCP solution, the proposed algorithm is shown to be globally and locally quadratically convergent under suitable assumptions. Numerical experiments demonstrate the feasibility and efficiency of our algorithm.,

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A quadratically convergent descent method for the absolute value equation Ax+B|x|=b

Tang

Zhou

2019

Operations Research Letters

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A Nonmonotone Smoothing Newton Algorithm for Weighted Complementarity Problem

Tang

Zhang

2021

J Optim Theory Appl

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Jingyong Tang

A smoothing Newton method for second-order cone optimization based on a new smoothing function

A new one-step smoothing Newton method for second-order cone programming

A quadratically convergent descent method for the absolute value equation Ax+B|x|=b

A Nonmonotone Smoothing Newton Algorithm for Weighted Complementarity Problem

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