Constanda, Christian
Integral Methods in Science and Engineering, Volume 2
1. Error Bounds for
M. Ahues, F. D. d’Almeida, R. Fernandes
2. Construction of Solutions of the Hamburger–Löwner Mixed Interpolation Problem for Nevanlinna Class Functions
J. A. Alcober, I. M. Tkachenko, M. Urrea
3. A Three-Dimensional Eutrophication Model: Analysis and Control
L. J. Alvarez-Vázquez, F. J. Fernández, R. Muñoz-Sola
4. An Analytical Solution for the Transient Two-Dimensional Advection–Diffusion Equation with Non-Fickian Closure in Cartesian Geometry by the Generalized Integral Transform Technique
D. Buske, M. T. Vilhena, D. Moreira, T. Tirabassi
5. A Numerical Solution of the Dispersion Equation of Guided Wave Propagation in
J. Cardona, P. Tabuenca, A. Samartin
6. Discretization of Coefficient Control Problems with a Nonlinear Cost in the Gradient
J. Casado-Díaz, J. Couce-Calvo, M. Luna-Laynez, J. D. Martín-Gómez
7. Optimal Control and Vanishing Viscosity for the Burgers Equation
C. Castro, F. Palacios, E. Zuazua
8. A High-Order Finite Volume Method for Nonconservative Problems and Its Application to Model Submarine Avalanches
M. J. Castro Díaz, E. D. Fernández-Nieto, J. M. González-Vida, A. Mangeney, C. Parés
9. Convolution Quadrature Galerkin Method for the Exterior Neumann Problem of the Wave Equation
D. J. Chappell
10. Solution Estimates in Classical Bending of Plates
I. Chudinovich, C. Constanda, D. Doty, A. Koshchii
11. Modified Newton’s Methods for Systems of Nonlinear Equations
A. Cordero, J. R. Torregrosa
12. Classification of Some Penalty Methods
A. Correia, J. Matias, P. Mestre, C. Serôdio
13. A Closed-Form Formulation for Pollutant Dispersion in the Atmosphere
C. P. Costa, M. T. Vilhena, T. Tirabassi
14. High-Order Methods for Weakly Singular Volterra Integro-Differential Equations
T. Diogo, M. Kolk, P. Lima, A. Pedas
15. Numerical Solution of a Class of Integral Equations Arising in a Biological Laboratory Procedure
D. A. French, C. W. Groetsch
16. A Mixed Two-Grid Method Applied to a Fredholm Equation of the Second Kind
L. Grammont
17. Homogenized Models of Radiation Transfer in Multiphase Media
A. V. Gusarov, I. Smurov
18. A Porous Finite Element Model of the Motion of the Spinal Cord
P. J. Harris, C. Hardwidge
19. Boundary Hybrid Galerkin Method for Elliptic and Wave Propagation Problems in ℝ
C. Jerez-Hanckes, J.-C. Nédélec
20. Boundary Integral Solution of the Time-Fractional Diffusion Equation
J. Kemppainen, K. Ruotsalainen
21. Boundary Element Collocation Method for Time-Fractional Diffusion Equations
J. Kemppainen, K. Ruotsalainen
22. Wavelet-Based Hölder Regularity Analysis in Condition Monitoring
V. Kotila, S. Lahdelma, K. Ruotsalainen
23. Integral Equation Technique for Finding the Current Distribution of Strip Antennas in a Gyrotropic Medium
A. V. Kudrin, E. Yu. Petrov, T. M. Zaboronkova
24. A Two-Grid Method for a Second Kind Integral Equation with Green’s Kernel
R. P. Kulkarni
25. A Brief Overview of Plate Finite Element Methods
C. Lovadina
26. Influence of a Weak Aerodynamics/Structure Interaction on the Aerodynamical Global Optimization of Shape
A. Nastase
27. Multiscale Investigation of Solutions of the Wave Equation
M. Perel, M. Sidorenko, E. Gorodnitskiy
28. The Laplace Transform Method for the Albedo Boundary Conditions in Neutron Diffusion Eigenvalue Problems
C. Z. Petersen, M. T. Vilhena, D. Moreira, R. C. Barros
29. Solution of the Fokker–Planck Pencil Beam Equation for Electrons by the Laplace Transform Technique
B. Rodriguez, M. T. Vilhena
30. Nonlinear Functional Parabolic Equations
L. Simon
31. Grid Computing for Multi-Spectral Tomographic Reconstruction of Chlorophyll Concentration in Ocean Water
R. P. Souto, H. F. Campos Velho, F. F. Paes, S. Stephany, P. O. A. Navaux, A. S. Charão, J. K. Vizzotto
32. Long-Time Solution of the Wave Equation Using Nonlinear Dissipative Structures
J. Steinhoff, S. Chitta
33. High-Performance Computing for Spectral Approximations
P. B. Vasconcelos, O. Marques, J. E. Roman
34. An Analytical Solution for the General Perturbed Diffusion Equation by an Integral Transform Technique
M. T. Vilhena, B. E. J. Bodmann, I. R. Heinen
Avainsanat: Mathematics, Integral Equations, Appl.Mathematics/Computational Methods of Engineering, Ordinary Differential Equations, Partial Differential Equations, Mechanical Engineering, Mathematical Methods in Physics
- Tekijä(t)
- Constanda, Christian
- Pérez, M.E.
- Julkaisija
- Springer
- Julkaisuvuosi
- 2010
- Kieli
- en
- Painos
- 1
- Sivumäärä
- 19 sivua
- Kategoria
- Eksaktit luonnontieteet
- Tiedostomuoto
- E-kirja
- eISBN (PDF)
- 9780817648978