On the convergence of modulus-based matrix splitting methods for horizontal linear complementarity problems in hydrodynamic lubrication

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DOI10.1016/j.matcom.2020.01.014OpenAlexW3003242163MaRDI QIDQ1998058

Francesco Mezzadri, Emanuele Galligani

Publication date: 6 March 2021

Published in: Mathematics and Computers in Simulation (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.matcom.2020.01.014

zbMATH Keywords

iterative methods horizontal linear complementarity problems modulus-based matrix splitting methods projected splitting methods

Mathematics Subject Classification ID

Mathematical programming (90Cxx) Numerical linear algebra (65Fxx) Numerical methods for mathematical programming, optimization and variational techniques (65Kxx)

Related Items (12)

The convergence of the modulus-based Jacobi (MJ) iteration method for solving horizontal linear complementarity problems ⋮ A modulus-based formulation for the vertical linear complementarity problem ⋮ A two-step modulus-based matrix splitting iteration method for horizontal linear complementarity problems ⋮ A generalized variant of two-sweep modulus-based matrix splitting iteration method for solving horizontal linear complementarity problems ⋮ Modulus-based matrix splitting iteration methods with new splitting scheme for horizontal implicit complementarity problems ⋮ A preconditioned general modulus-based matrix splitting iteration method for solving horizontal linear complementarity problems ⋮ A two-step iteration method for the horizontal nonlinear complementarity problem ⋮ On the MAOR method for a class of hydrodynamic lubrication problems ⋮ On the modulus-based successive overrelaxation iteration method for horizontal linear complementarity problems arising from hydrodynamic lubrication ⋮ Applied scientific computing XV: innovative modeling and simulation in sciences ⋮ Modulus-based successive overrelaxation iteration method for pricing American options with the two-asset Black-Scholes and Heston's models based on finite volume discretization ⋮ A sign-based linear method for horizontal linear complementarity problems

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