9.2 Ordinary Differential Equation Solvers
Stan provides built-in ordinary differential equation (ODE) solvers. Although they look like function applications, the ODE solvers are special in two ways.
First, the first argument to each of the solvers is a function specifying the ODE system as an argument, like PKBugs (Lunn et al. 1999). Ordinary Stan functions do not allow functions as arguments.
Second, some of the arguments to the ODE solvers are restricted to data only expressions. These expressions must not contain variables other than those declared in the data or transformed data blocks. Ordinary Stan functions place no restriction on the origin of variables in their argument expressions.
9.2.1 Specifying an Ordinary Differential Equation as a Function
A system of ODEs is specified as an ordinary function in Stan within the functions block. The ODE system function must have this function signature:
real[] ode(real time, real[] state, real[] theta,
real[] x_r, int[] x_i)
The ODE system function should return the derivative of the state with respect to time at the time provided. The length of the returned real array must match the length of the state input into the function.
The arguments to this function are:
time
, the time to evaluate the ODE systemstate
, the state of the ODE system at the time specifiedtheta
, parameter values used to evaluate the ODE systemx_r
, data values used to evaluate the ODE systemx_i
, integer data values used to evaluate the ODE system.
The ODE system function separates parameter values, theta
, from
data values, x_r
, for efficiency in computing the gradients of the
ODE.
9.2.2 Non-Stiff Solver
real[ , ]
integrate_ode_rk45
(function ode, real[] initial_state, real initial_time, real[] times, real[] theta, real[] x_r, int[] x_i)
Solves the ODE system for the times provided using the Runge Kutta
Dopri algorithm with the implementation from Boost.
real[ , ]
integrate_ode_rk45
(function ode, real[] initial_state, real initial_time, real[] times, real[] theta, real[] x_r, int[] x_i, real rel_tol, real abs_tol, int max_num_steps)
Solves the ODE system for the times provided using the Runge Kutta
Dopri algorithm with the implementation from Boost with additional
control parameters for the solver.
real[ , ]
integrate_ode
(function ode, real[] initial_state, real initial_time, real[] times, real[] theta, real[] x_r, int[] x_i)
Deprecated. Solves the ODE system for the times provided with a
non-stiff solver. This calls the Runge Kutta Dopri algorithm.
9.2.3 Stiff Solver
real[]
integrate_ode_bdf
(function ode, real[] initial_state, real initial_time, real[] times, real[] theta, data real[] x_r, data int[] x_i)
Solves the ODE system for the times provided using the backward
differentiation formula (BDF) method with the implementation from
CVODES.
real[]
integrate_ode_bdf
(function ode, real[] initial_state, real initial_time, real[] times, real[] theta, data real[] x_r, data int[] x_i, data real rel_tol, data real abs_tol, dta int max_num_steps)
Solves the ODE system for the times provided using the backward
differentiation formula (BDF) method with the implementation from
CVODES with additional control parameters for the CVODES solver.
9.2.4 Arguments to the ODE solvers
The arguments to the ODE solvers in both the stiff and non-stiff cases are as follows.
ode
: function literal referring to a function specifying the system of differential equations with signature described in ode functions:
(real, real[], real[], data real[], data int[]):real[]
The arguments represent (1) time, (2) system state, (3) parameters, (4) real data, and (5) integer data, and the return value contains the derivatives with respect to time of the state,
initial_state
: initial state, typereal[]
,initial_time
: initial time, typeint
orreal
,times
: solution times, typereal[]
,theta
: parameters, typereal[]
,data
x_r
: real data, typereal[]
, data only, anddata
x_i
: integer data, typeint[]
, data only.
For more fine-grained control of the ODE solvers, these parameters can also be provided:
data
rel_tol
: relative tolerance for the ODE solver, typereal
, data only,data
abs_tol
: absolute tolerance for the ODE solver, typereal
, data only, anddata
max_num_steps
: maximum number of steps to take in the ODE solver, typeint
, data only.
9.2.4.1 Return values
The return value for the ODE solvers is an array of type real[,]
,
with values consisting of solutions at the specified times.
9.2.4.2 Sizes and parallel arrays
The sizes must match, and in particular, the following groups are of the same size:
state variables passed into the system function, derivatives returned by the system function, initial state passed into the solver, and rows of the return value of the solver,
solution times and number of rows of the return value of the solver,
parameters, real data and integer data passed to the solver will be passed to the system function
References
Lunn, D. J., J. Wakefield, A. Thomas, N. Best, and D. Spiegelhalter. 1999. PKBugs User Guide.