Design of software for ODEs
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Publication:885942
DOI10.1016/j.cam.2006.01.051zbMath1116.65085OpenAlexW2163266411MaRDI QIDQ885942
Publication date: 14 June 2007
Published in: Journal of Computational and Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cam.2006.01.051
Numerical methods for initial value problems involving ordinary differential equations (65L05) Numerical solution of boundary value problems involving ordinary differential equations (65L10) Packaged methods for numerical algorithms (65Y15)
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Cites Work
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- Practical improvements to SIMPR codes for stiff ODEs
- Matrix eigensystem routines. EISPACK guide extension
- DKLAG6: A code based on continuously imbedded sixth-order Runge-Kutta methods for the solution of state-dependent functional differential equations
- Singular boundary value problems for ODEs
- Event location for ordinary differential equations
- Solving ODEs and DDEs with residual control
- Initial value problems for ODEs in problem solving environments
- A friendly Fortran DDE solver
- Nonnegative solutions of ODEs
- The MATLAB ODE Suite
- Solving Ordinary Differential Equations I
- Fixed versus variable order Runge-Kutta
- Recent Progress in Extrapolation Methods for Ordinary Differential Equations
- Global Error Estimates for Ordinary Differential Equations
- Solving Index-1 DAEs in MATLAB and Simulink
- Solving ODEs with MATLAB
- Solving 0 = F(t, y(t), y′(t)) in Matlab
- Runge–Kutta Software with Defect Control for Boundary Value ODE<scp>s</scp>
- A BVP solver based on residual control and the Maltab PSE
- The automatic integration of ordinary differential equations
- Solving DDEs in Matlab
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