Solvers for Initial Value Problems of Differential Equations ('ODE', 'DAE', 'DDE')
A Physiological Model of Unbalanced Algal Growth
The CCl4 Inhalation Model
Check shared library (DLL/.so) of a compiled model.
Find Nearest Event for Each Time Step and Clean Time Steps to Avoid Do...
Solver for Differential Algebraic Equations (DAE)
General Solver for Delay Differential Equations.
Internal deSolve Functions
General Solvers for Initial Value Problems of Ordinary Differential Eq...
Print Diagnostic Characteristics of ODE and DAE Solvers
Print Diagnostic Characteristics of Solvers
Evaluates a Derivative Function Represented in a DLL
Evaluates a Residual Derivative Function Represented in a DLL
Implementing Events and Roots in Differential Equation Models.
Passing Forcing Functions to Models Written in R or Compiled Code.
Solver for Ordinary Differential Equations (ODE), Switching Automatica...
Solver for Ordinary Differential Equations (ODE), Switching Automatica...
Solver for Ordinary Differential Equations (ODE)
Solver for Ordinary Differential Equations (ODE) With Sparse Jacobian
Solver For Multicomponent 1-D Ordinary Differential Equations
Solver for 2-Dimensional Ordinary Differential Equations
Solver for 3-Dimensional Ordinary Differential Equations
Solver for Ordinary Differential Equations; Assumes a Banded Jacobian
General Solver for Ordinary Differential Equations
Plot, Image and Histogram Method for deSolve Objects
Implicit Runge-Kutta RADAU IIA
Explicit One-Step Solvers for Ordinary Differential Equations (ODE)
Solve System of ODE (Ordinary Differential Equation)s by Euler's Metho...
Collection of Parameter Sets (Butcher Arrays) for the Runge-Kutta Fami...
A Sediment Model of Oxygen Consumption
Time Lagged Values of State Variables and Derivatives.
Solver for Ordinary Differential Equations (ODE)
Solver for Ordinary Differential Equations (ODE) for COMPLEX variables
Functions that solve initial value problems of a system of first-order ordinary differential equations ('ODE'), of partial differential equations ('PDE'), of differential algebraic equations ('DAE'), and of delay differential equations. The functions provide an interface to the FORTRAN functions 'lsoda', 'lsodar', 'lsode', 'lsodes' of the 'ODEPACK' collection, to the FORTRAN functions 'dvode', 'zvode' and 'daspk' and a C-implementation of solvers of the 'Runge-Kutta' family with fixed or variable time steps. The package contains routines designed for solving 'ODEs' resulting from 1-D, 2-D and 3-D partial differential equations ('PDE') that have been converted to 'ODEs' by numerical differencing.