# Any R package to solve variable coefficients second order linear ODE?

For the variable coefficients second order linear ODE

$x''(t)+\beta_1(t)x'(t)+\beta_0 x(t)=0$

I have the numerical values (in terms of vectors) for $\beta_1(t)$ and $\beta_0(t)$, does anyone know some R package to do that? And some simple examples to illustrate would be great as well.

I googled to find 'bvpSolve' can solve constant coefficients value.

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you should be able to do this with the standard ode() function in the deSolve package, I think ... the gradient function you need to define takes the arguments t, y, parms, where t is the time. The tricky part, I guess, is deciding whether/how you want to interpolate your forcing functions -- are they piecewise constant? piecewise linear? smooth? –  Ben Bolker Apr 2 at 7:12
@BenBolker Could you please give some details? And there is no forcing function in my current example. And for my coefficients functions, it is an expansion from the b-splines. –  Lerong Apr 2 at 14:49
By "forcing functions", I (sloppily) meant your time-dependent parameters, not a time-dependent constant term ... could you give a reproducible example (see stackoverflow.com/questions/5963269/… ) of a simple set of equations and parameters? –  Ben Bolker Apr 2 at 14:54
for example: beta0(t)=sin(2*pi*t), beta1(t)=cos(2*pi*t). –  Lerong Apr 2 at 19:08
it's still not clear to me what "I have the numerical values (in terms of vectors) for $\beta_1(t)$ and $\beta_0(t)$" means. I may have answered your question below. –  Ben Bolker Apr 2 at 19:30

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In order to use deSolve, you have to make your second-order ODE

x''(t) + \beta_1(t) x'(t) + \beta_0 x(t)=0


into a pair of coupled first-order ODEs:

x'(t) = y(t)
y'(t) = - \beta_1(t) y(t) - \beta_0 x(t)


Then it's straightforward:

gfun <- function(t,z,params) {
g <- with(as.list(c(z,params)),
{
beta0 <- sin(2*pi*t)
beta1 <- cos(2*pi*t)
c(x=y,
y= -beta1*y - beta0*x))
list(g,NULL)
}
library("deSolve")
run1 <- ode(c(x=1,y=1),times=0:40,func=gfun,parms=numeric(0))


I picked some initial conditions (x(0)=1, x'(0)=1) arbitrarily; you might also want to add parameters to the model (i.e. make parms something other than numeric(0))

PS if you're not happy doing the conversion to coupled first-order ODEs by hand, and want a package that will seamlessly handle second-order ODEs, then I don't know the answer ...

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thanks for your answers, @Ben, it help me alot. –  Lerong Apr 17 at 22:03