vdpol: van der Pol Equation, Nonlinear Vacuum Tube Circuit, ODE

Description

Problem originating from electronics, describing the behavior of nonlinear vacuum tube circuots.

It is an ODE, 2 equations.

vdpol  (times = 0:2000, yini = NULL,  
        parms = list(), printmescd = TRUE,
        atol = 1e-6, rtol = 1e-6, ...)

A matrix of class deSolve with up to as many rows as elements in

times and as many columns as elements in yini, plus an additional column (the first) for the time value.

There will be one row for each element in times unless the solver returns with an unrecoverable error. If

yini has a names attribute, it will be used to label the columns of the output value.

yini: the initial (state) values for the DE system. If y has a name attribute, the names will be used to label the output matrix.
times: time sequence for which output is wanted; the first value of times must be the initial time.
parms: list of parameters that overrule the default parameter values
atol: absolute error tolerance, either a scalar or a vector, one value for each y.
rtol: relative error tolerance, either a scalar or a vector, one value for each y,
printmescd: if TRUE the mixed error significant digits computed using the reference solution at time 5 are printed
...: additional arguments passed to the solver .

Karline Soetaert <karline.soetaert@nioz.nl>

Francesca Mazzia <mazzia@dm.uniba.it>

The default parameters are: mu=1000

The default initial conditions are: y1 = 2, y2 = 0

url : archimede.dm.uniba.it/~testset

out <- vdpol()
plot(out, lwd = 2, which = 1)

# compare to reference solution
out[nrow(out),-1] - reference("vdpol")

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