ode89
Syntax
Description
[
,
where t
,y
] =
ode89(odefun
,tspan
,y0
)tspan = [t0 tf]
, integrates the system of differential equations from t0
to tf
with initial
conditions y0
. Each row in the solution array y
corresponds to a value returned in column vector t
.
All MATLAB® ODE solvers can solve systems of equations of the form , or problems that involve a mass matrix, . The solvers use similar syntaxes. The ode23s
solver
can solve problems with a mass matrix only if the mass matrix is constant.
ode15s
and ode23t
can solve problems with a mass
matrix that is singular, known as differential-algebraic equations (DAEs). Specify the mass
matrix using the Mass
option of odeset
.
[
additionally finds where functions of (t,y), called event functions, are zero. In the output, t
,y
,te
,ye
,ie
]
= ode89(odefun
,tspan
,y0
,options
)te
is
the time of the event, ye
is the solution at the time of the event, and
ie
is the index of the triggered event.
For each event function, specify whether the integration is to terminate at a zero and
whether the direction of the zero crossing is significant. Do this by setting the
'Events'
option of odeset
to a function, such as
myEventFcn
or @myEventFcn
, and create a
corresponding function:
[value
,isterminal
,direction
] =
myEventFcn
(t
,y
). For more
information, see ODE Event Location.
returns a
structure that you can use with sol
= ode89(___)deval
to evaluate the solution at any
point on the interval [t0 tf]
. You can use any of the input argument
combinations in previous syntaxes.
Examples
Input Arguments
Output Arguments
Algorithms
ode89
is an implementation of Verner's "most robust" Runge-Kutta 9(8)
pair with an 8th-order continuous extension. The solution is advanced with the 9th-order
result. The 8th-order continuous extension requires five additional evaluations of
odefun
, but only on steps that require interpolation.
References
[1] Verner, J. H. “Numerically Optimal Runge–Kutta Pairs with Interpolants.” Numerical Algorithms 53, no. 2–3 (March 2010): 383–396. https://doi.org/10.1007/s11075-009-9290-3.
Extended Capabilities
Version History
Introduced in R2021b