The cfp code, like the rest of the code in the extras directory, is contributed code that is made available by others, and I am not necessarily familiar enough with it to offer support. You may want to address your questions directly to the author Riu Bo.
-- Ray Zimmerman Senior Research Associate 419A Warren Hall, Cornell University, Ithaca, NY 14853 phone: (607) 255-9645 On Mar 14, 2013, at 1:45 AM, ahmad rezaee <[email protected]> wrote: > Dear Dr Zimmerman > > 1. this cpf code computes loadability for load increase in one single, thus > it does not compute true loadability. Am I right? and if it is so, there is > no improved version of this code to include load increase in all busses? > 2. According to the function below, is it possible to compute cpf for a > system when its branch parameters change continiously? (since mpc is not > among function arguments) > > function [max_lambda, predicted_list, corrected_list, combined_list, success, > et] = cpf(casedata, loadvarloc, sigmaForLambda, sigmaForVoltage) > > Thanks > > Ahmad > > > From: Ray Zimmerman <[email protected]> > To: MATPOWER discussion forum <[email protected]> > Sent: Wednesday, March 6, 2013 8:39 AM > Subject: Re: loadability computation in matpower > > See the continuation power flow (cpf) code mentioned in Appendix E in the > User's Manual. > > -- > Ray Zimmerman > Senior Research Associate > 419A Warren Hall, Cornell University, Ithaca, NY 14853 > phone: (607) 255-9645 > > > > > On Mar 6, 2013, at 11:05 AM, ahmad rezaee <[email protected]> wrote: > >> Dear dr zimmerman >> Matpower has any option for computing power system loadability or voltage >> collapse points? >> >> Thanks > > >
