- DESCRIPTION file.
- User guides, package vignettes and other documentation.
- Code demos. Use demo() to run them.
- Package NEWS.

deSolve-package | General Solvers for Initial Value Problems of Ordinary Differential Equations (ODE), Partial Differential Equations (PDE), Differential Algebraic Equations (DAE) and delay differential equations (DDE). |

aquaphy | A Physiological Model of Unbalanced Algal Growth |

ccl4data | Closed Chamber Study of CCl4 Metabolism by Rats. |

ccl4model | The CCl4 Inhalation Model |

cleanEventTimes | Find Nearest Event for Each Time Step and Clean Time Steps to Avoid Doubles |

daspk | Solver for Differential Algebraic Equations (DAE) |

dede | General Solver for Delay Differential Equations. |

deSolve | General Solvers for Initial Value Problems of Ordinary Differential Equations (ODE), Partial Differential Equations (PDE), Differential Algebraic Equations (DAE) and delay differential equations (DDE). |

diagnostics | Print Diagnostic Characteristics of Solvers |

diagnostics.default | Print Diagnostic Characteristics of Solvers |

diagnostics.deSolve | Print Diagnostic Characteristics of ODE and DAE Solvers |

DLLfunc | Evaluates a Derivative Function Represented in a DLL |

DLLres | Evaluates a Residual Derivative Function Represented in a DLL |

euler | Solve System of ODE (Ordinary Differential Equation)s by Euler's Method or Classical Runge-Kutta 4th Order Integration. |

euler.1D | Solve System of ODE (Ordinary Differential Equation)s by Euler's Method or Classical Runge-Kutta 4th Order Integration. |

events | Implementing Events and Roots in Differential Equation Models. |

forcings | Passing Forcing Functions to Models Written in R or Compiled Code. |

hist.deSolve | Plot, Image and Histogram Method for deSolve Objects |

image.deSolve | Plot, Image and Histogram Method for deSolve Objects |

lagderiv | Time Lagged Values of State Variables and Derivatives. |

lagvalue | Time Lagged Values of State Variables and Derivatives. |

lsoda | Solver for Ordinary Differential Equations (ODE), Switching Automatically Between Stiff and Non-stiff Methods |

lsodar | Solver for Ordinary Differential Equations (ODE), Switching Automatically Between Stiff and Non-stiff Methods and With Root Finding |

lsode | Solver for Ordinary Differential Equations (ODE) |

lsodes | Solver for Ordinary Differential Equations (ODE) With Sparse Jacobian |

matplot.0D | Plot, Image and Histogram Method for deSolve Objects |

matplot.1D | Plot, Image and Histogram Method for deSolve Objects |

matplot.deSolve | Plot, Image and Histogram Method for deSolve Objects |

nearestEvent | Find Nearest Event for Each Time Step and Clean Time Steps to Avoid Doubles |

ode | General Solver for Ordinary Differential Equations |

ode.1D | Solver For Multicomponent 1-D Ordinary Differential Equations |

ode.2D | Solver for 2-Dimensional Ordinary Differential Equations |

ode.3D | Solver for 3-Dimensional Ordinary Differential Equations |

ode.band | Solver for Ordinary Differential Equations; Assumes a Banded Jacobian |

plot.1D | Plot, Image and Histogram Method for deSolve Objects |

plot.deSolve | Plot, Image and Histogram Method for deSolve Objects |

print.deSolve | General Solver for Ordinary Differential Equations |

radau | Implicit Runge-Kutta RADAU IIA |

rk | Explicit One-Step Solvers for Ordinary Differential Equations (ODE) |

rk4 | Solve System of ODE (Ordinary Differential Equation)s by Euler's Method or Classical Runge-Kutta 4th Order Integration. |

rkMethod | Collection of Parameter Sets (Butcher Arrays) for the Runge-Kutta Family of ODE Solvers |

roots | Implementing Events and Roots in Differential Equation Models. |

SCOC | A Sediment Model of Oxygen Consumption |

subset.deSolve | Plot, Image and Histogram Method for deSolve Objects |

summary.deSolve | General Solver for Ordinary Differential Equations |

timelags | Time Lagged Values of State Variables and Derivatives. |

vode | Solver for Ordinary Differential Equations (ODE) |

zvode | Solver for Ordinary Differential Equations (ODE) for COMPLEX variables |