AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the finite-dimensional linear complementarity problem that involves an M-matrix. The scheme contains some existing algorithms as special cases. We establish monotone convergence of the iteration scheme under appropriate conditions. Moreover, using the concept of weak regular splitting, we estimate weighted max-norm bounds for iteration errors; thereby we show that the sequence generated by the iteration scheme converges to the unique solution of the problem without any restriction on the initial point
AbstractA class of parallel multisplitting chaotic relaxation methods is established for the large s...
AbstractA polynomial-time continuation algorithm is presented for a class of linear complementarity ...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
In this paper, we consider an algebraic additive Schwarz iteration scheme for solving the finitedime...
AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the fi...
In this paper, we consider some additive Schwarz methods for solving the finite-dimensional nonlinea...
AbstractIn this paper, we consider an algebraic multiplicative Schwarz iteration scheme for solving ...
Weighted max-norm bounds are obtained for Algebraic Additive Schwarz Iterations with overlapping blo...
Convergence properties are presented for Newton additive and multiplicative Schwarz (AS and MS) iter...
AbstractIn recent years, an algebraic framework was introduced for the analysis of convergence of Sc...
The preconditioner presented by Hadjidimos et al. (2003) can improve on the convergence rate of the...
Abstract Complementary problems play a central role in equilibrium finding, physical simulation, and...
AbstractThe convergence of the multiplicative multisplitting-type method for solving the linear comp...
AbstractThe Linear Complementarity Problem (LCP) has many applications as, e.g., in the solution of ...
AbstractThis paper proves the convergence of some generalized Schwarz algorithms for solvingthe obst...
AbstractA class of parallel multisplitting chaotic relaxation methods is established for the large s...
AbstractA polynomial-time continuation algorithm is presented for a class of linear complementarity ...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...
In this paper, we consider an algebraic additive Schwarz iteration scheme for solving the finitedime...
AbstractIn this paper, we consider an algebraic additive Schwarz iteration scheme for solving the fi...
In this paper, we consider some additive Schwarz methods for solving the finite-dimensional nonlinea...
AbstractIn this paper, we consider an algebraic multiplicative Schwarz iteration scheme for solving ...
Weighted max-norm bounds are obtained for Algebraic Additive Schwarz Iterations with overlapping blo...
Convergence properties are presented for Newton additive and multiplicative Schwarz (AS and MS) iter...
AbstractIn recent years, an algebraic framework was introduced for the analysis of convergence of Sc...
The preconditioner presented by Hadjidimos et al. (2003) can improve on the convergence rate of the...
Abstract Complementary problems play a central role in equilibrium finding, physical simulation, and...
AbstractThe convergence of the multiplicative multisplitting-type method for solving the linear comp...
AbstractThe Linear Complementarity Problem (LCP) has many applications as, e.g., in the solution of ...
AbstractThis paper proves the convergence of some generalized Schwarz algorithms for solvingthe obst...
AbstractA class of parallel multisplitting chaotic relaxation methods is established for the large s...
AbstractA polynomial-time continuation algorithm is presented for a class of linear complementarity ...
AbstractWe study convergence conditions for the additive and the multiplicative splitting iteration ...