Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Alternating_direction_implicit_method> ?p ?o }
Showing triples 1 to 45 of
45
with 100 triples per page.
- Alternating_direction_implicit_method abstract "In numerical analysis, the Alternating Direction Implicit (ADI) method is a finite difference method for solving parabolic, hyperbolic and elliptic partial differential equations. It is most notably used to solve the problem of heat conduction or solving the diffusion equation in two or more dimensions. It is an example of an operator splitting method.The traditional method for solving the heat conduction equation numerically is the Crank–Nicolson method. This method results in a very complicated set of equations in multiple dimensions, which are costly to solve. The advantage of the ADI method is that the equations that have to be solved in each step have a simpler structure and can be solved efficiently with the tridiagonal matrix algorithm.".
- Alternating_direction_implicit_method thumbnail ADI-stencil.svg?width=300.
- Alternating_direction_implicit_method wikiPageID "14668760".
- Alternating_direction_implicit_method wikiPageLength "4891".
- Alternating_direction_implicit_method wikiPageOutDegree "19".
- Alternating_direction_implicit_method wikiPageRevisionID "603396758".
- Alternating_direction_implicit_method wikiPageWikiLink Band_matrix.
- Alternating_direction_implicit_method wikiPageWikiLink Category:Numerical_differential_equations.
- Alternating_direction_implicit_method wikiPageWikiLink Category:Partial_differential_equations.
- Alternating_direction_implicit_method wikiPageWikiLink Conjugate_gradient_method.
- Alternating_direction_implicit_method wikiPageWikiLink Crank–Nicolson_method.
- Alternating_direction_implicit_method wikiPageWikiLink Diffusion_equation.
- Alternating_direction_implicit_method wikiPageWikiLink Elliptic_partial_differential_equation.
- Alternating_direction_implicit_method wikiPageWikiLink Finite_difference.
- Alternating_direction_implicit_method wikiPageWikiLink Heat_conduction.
- Alternating_direction_implicit_method wikiPageWikiLink Hyperbolic_partial_differential_equation.
- Alternating_direction_implicit_method wikiPageWikiLink Incomplete_Cholesky_factorization.
- Alternating_direction_implicit_method wikiPageWikiLink Numerical_analysis.
- Alternating_direction_implicit_method wikiPageWikiLink Parabolic_partial_differential_equation.
- Alternating_direction_implicit_method wikiPageWikiLink Symmetric_matrix.
- Alternating_direction_implicit_method wikiPageWikiLink System_of_linear_equations.
- Alternating_direction_implicit_method wikiPageWikiLink Thermal_conduction.
- Alternating_direction_implicit_method wikiPageWikiLink Tridiagonal_matrix_algorithm.
- Alternating_direction_implicit_method wikiPageWikiLink Von_Neumann_stability_analysis.
- Alternating_direction_implicit_method wikiPageWikiLink File:ADI-stencil.svg.
- Alternating_direction_implicit_method wikiPageWikiLinkText "ADI".
- Alternating_direction_implicit_method wikiPageWikiLinkText "Alternating direction implicit method".
- Alternating_direction_implicit_method wikiPageWikiLinkText "Peaceman-Rachford method".
- Alternating_direction_implicit_method hasPhotoCollection Alternating_direction_implicit_method.
- Alternating_direction_implicit_method wikiPageUsesTemplate Template:Numerical_PDE.
- Alternating_direction_implicit_method wikiPageUsesTemplate Template:Reflist.
- Alternating_direction_implicit_method subject Category:Numerical_differential_equations.
- Alternating_direction_implicit_method subject Category:Partial_differential_equations.
- Alternating_direction_implicit_method hypernym Method.
- Alternating_direction_implicit_method type Software.
- Alternating_direction_implicit_method comment "In numerical analysis, the Alternating Direction Implicit (ADI) method is a finite difference method for solving parabolic, hyperbolic and elliptic partial differential equations. It is most notably used to solve the problem of heat conduction or solving the diffusion equation in two or more dimensions. It is an example of an operator splitting method.The traditional method for solving the heat conduction equation numerically is the Crank–Nicolson method.".
- Alternating_direction_implicit_method label "Alternating direction implicit method".
- Alternating_direction_implicit_method sameAs Método_da_direção_implícita_alternada.
- Alternating_direction_implicit_method sameAs m.03gsgjs.
- Alternating_direction_implicit_method sameAs Q4736413.
- Alternating_direction_implicit_method sameAs Q4736413.
- Alternating_direction_implicit_method sameAs 交替方向隐式法.
- Alternating_direction_implicit_method wasDerivedFrom Alternating_direction_implicit_method?oldid=603396758.
- Alternating_direction_implicit_method depiction ADI-stencil.svg.
- Alternating_direction_implicit_method isPrimaryTopicOf Alternating_direction_implicit_method.