That is one answer. Another one is that this particular system is a DAE and we have methods for that.
Matt On Fri, Feb 3, 2017 at 8:40 PM, Barry Smith <[email protected]> wrote: > > TSSetPostStep(); in your function use TSGetSolution() to get the current > solution. > > Please let us know how it works out > > Barry > > > > > On Feb 3, 2017, at 7:14 PM, Gideon Simpson <[email protected]> > wrote: > > > > I’m interested in implementing a projection method for an ODE of the > form: > > > > y’ = f(y), > > > > such that g(y) = 0 for all time (i.e., g is conserved). Note that in a > projection method, a standard time step is made to produce y* from y_{n}, > and then this is corrected to obtain y_{n+1} satisfying g(y) = 0. > > > > There were two ways I was thinking of doing this, and I was hoping to > get some input: > > > > Idea 1: Manually loop through using taking a time step and then > implementing the projection routine. I see that there is a TSStep command, > but this doesn’t seem to be much documentation on how to use it in this > scenario. Does anyone have any guidance? > > > > Idea 2: Is there some analog to TSMonitor that allows me to modify the > solution after each time step, instead of just allowing for some > computation of a statistic? > > > > > > -- What most experimenters take for granted before they begin their experiments is infinitely more interesting than any results to which their experiments lead. -- Norbert Wiener
