Abstract In this paper, we demonstrate a complete version of the convergence theory of the modulus-based matrix splitting iteration methods for solving a class of implicit complementarity problems proposed by Hong and Li (Numer. Linear Algebra Appl. 23:629-641, 2016). New convergence conditions are presented when the system matrix is a positive-definite matrix and an H + $H_{+}$ -matrix, respectively
Cover title.Includes bibliographical references (p. 45-48).Partially supported by the U.S. Army Rese...
AbstractOver the years, many methods for solving the linear complementarity problem (LCP) have been ...
Abstract-In this paper, we propose two new iterative SAOR methods to solve the linear complementarit...
Abstract In this paper, we consider a class of weakly nonlinear complementarity problems (WNCP) with...
In this paper, we generalize modulus-based matrix splitting methods to a class of horizontal nonline...
In this paper, we analyze the relationship between projected and (possibly accelerated) modulus-base...
In the present work we consider the iterative solution of the Linear Complementarity Problem (LCP), ...
AbstractIn this paper, we study the splitting method and two-stage splitting method for the linear c...
We consider a matrix splitting algorithm for the linear complementarity problem where the matrix is ...
AbstractWe present an inexact multisplitting method for solving the linear complementarity problems,...
The numerous applications of the linear complementarity problem (LCP) in, e.g., the solution of line...
We consider iterative methods using splittings for solving symmetric positive semidefinite linear co...
AbstractThe convergence of the multiplicative multisplitting-type method for solving the linear comp...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
In this paper, we propose two splitting methods for solving horizontal linear complementarity proble...
Cover title.Includes bibliographical references (p. 45-48).Partially supported by the U.S. Army Rese...
AbstractOver the years, many methods for solving the linear complementarity problem (LCP) have been ...
Abstract-In this paper, we propose two new iterative SAOR methods to solve the linear complementarit...
Abstract In this paper, we consider a class of weakly nonlinear complementarity problems (WNCP) with...
In this paper, we generalize modulus-based matrix splitting methods to a class of horizontal nonline...
In this paper, we analyze the relationship between projected and (possibly accelerated) modulus-base...
In the present work we consider the iterative solution of the Linear Complementarity Problem (LCP), ...
AbstractIn this paper, we study the splitting method and two-stage splitting method for the linear c...
We consider a matrix splitting algorithm for the linear complementarity problem where the matrix is ...
AbstractWe present an inexact multisplitting method for solving the linear complementarity problems,...
The numerous applications of the linear complementarity problem (LCP) in, e.g., the solution of line...
We consider iterative methods using splittings for solving symmetric positive semidefinite linear co...
AbstractThe convergence of the multiplicative multisplitting-type method for solving the linear comp...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
In this paper, we propose two splitting methods for solving horizontal linear complementarity proble...
Cover title.Includes bibliographical references (p. 45-48).Partially supported by the U.S. Army Rese...
AbstractOver the years, many methods for solving the linear complementarity problem (LCP) have been ...
Abstract-In this paper, we propose two new iterative SAOR methods to solve the linear complementarit...