25.
by
Steinbach, Olaf. author.
Format:
Electronic Resources
Excerpt:
-- Boundary Element Methods -- Iterative Solution Methods -- Fast Boundary Element Methods -- Domain
by
Höllig, Klaus.
Format:
Electronic Resources
Excerpt:
with Weighted Splines -- Boundary Value Problems -- Multigrid Methods -- Implementation -- Appendix
by
Fujita, Hiroshi.
Format:
Electronic Resources
Excerpt:
operator theoretical points of view. Many parts are devoted to the finite element method, but other schemes
by
Atluri, Satya N.
Format:
Electronic Resources
Excerpt:
Methods for Elastic and Elastic-Plastic Fracture Problems -- Chapter 2. Field-Boundary Element Method for
by
Shirakova, Elena A.
Format:
Electronic Resources
Excerpt:
types of solids. Engineers can apply the approximate methods (Finite Element Method, Boundary Element
by
Hsiao, George C. author.
Format:
Electronic Resources
Excerpt:
mathematical foundation of the boundary element methods. The latter have recently become extremely popular and
by
Schröder, Jörg. editor.
Format:
Electronic Resources
Excerpt:
to an "immersed" boundary with the incompressible Stokes problem -- Stress-based finite element
by
Ammari, Habib. editor.
Format:
Electronic Resources
Excerpt:
Adaptive Finite Element Methods for Electromagnetic and Acoustic Problems -- Time Domain Adaptive Integral
by
Roy, Kalyan Kumar. author.
Format:
Electronic Resources
Excerpt:
equation. Finite element and finite difference methods for two-dimensional potential problems are discussed
by
Okereke, Michael. author.
Format:
Electronic Resources
Excerpt:
finite element (FE) method is one such widely used numerical method. Finite Element Applications begins
by
Yılmaz, Kemal Cem, author.
Format:
Manuscript
Excerpt:
Galerkin finite element formulation for low Peclet numbers and stabilized finite element formulation for
by
Roberto D. Graglia
Format:
Books
Excerpt:
element method was born. ... Finite element activity in electrical engineering began in earnest about 1968
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