Description: matcont is a Matlab continuation package with a GUI for the in-
teractive numerical study of parameterized nonlinear ODEs. It allows
to compute curves of equilibria, limit points, Hopf points, branch points
of equilibria, limit cycles, fold, flip, torus and branch point bifurcation
points of limit cycles, and homoclinic orbits. matcont can start these
computations from equilibria or periodic orbits computed by time inte-
gration and it can monitor user-defined functions and locate their roots
along computed curves. matcont can compute all necessary derivatives
by finite differences, from file or by using the symbolic toolbox of Mat-
lab. In this tutorial we describe a numerical study of a chemical model of
Steinmetz and Larter where a user function is monitored, a stable periodic
orbit is started from time integration and bifurcations of periodic orbits
are detected and continued.
To Search:
File list (Check if you may need any files):
matcont4p0\BranchPoint
..........\...........\branchpoint.m
..........\...........\init_BP_BP.m
..........\BranchPointCycle
..........\................\bordBVP_BPC_f.m
..........\................\branchpointcycle.m
..........\................\BVP_BPC_bc1.m
..........\................\init_BPC_BPC.m
..........\ChangeLog
..........\Continuer
..........\.........\bialt.m
..........\.........\bialtaa.m
..........\.........\chess.m
..........\.........\chessbr.m
..........\.........\chessp.m
..........\.........\chesspbr.m
..........\.........\cjac.asv
..........\.........\cjac.m
..........\.........\cjacbr.m
..........\.........\cjacp.m
..........\.........\cont.asv
..........\.........\cont.m
..........\.........\contget.m
..........\.........\contidx.m
..........\.........\contmrg.m
..........\.........\contset.m
..........\.........\ctens3.m
..........\.........\ctens4.m
..........\.........\ctens5.m
..........\.........\debug.m
..........\.........\newtcorr.asv
..........\.........\newtcorr.m
..........\.........\ode78.m
..........\.........\ode87.m
..........\.........\odearguments.m
..........\.........\odeget.m
..........\.........\odeset.m
..........\.........\printv.m
..........\.........\rearr.m
..........\.........\stop.m
..........\Equilibrium
..........\...........\a_lp.m
..........\...........\equilibrium.m
..........\...........\init_BP_EP.m
..........\...........\init_EP_EP.m
..........\...........\init_H_EP.m
..........\...........\init_LP_EP.m
..........\...........\lyapunov.m
..........\...........\pde_1.m
..........\GUI
..........\...\archive.fig
..........\...\archive.m
..........\...\BranchPar.m
..........\...\BranchParLP.m
..........\...\Callback.m
..........\...\continuer.fig
..........\...\continuer.m
..........\...\d2.fig
..........\...\d2.m
..........\...\D2region.fig
..........\...\D2region.m
..........\...\D3region.fig
..........\...\D3region.m
..........\...\der_callback.m
..........\...\dPRC_plot.m
..........\...\draw3_attributes.fig
..........\...\draw3_attributes.m
..........\...\drawing_attributes.fig
..........\...\drawing_attributes.m
..........\...\editsystem.fig
..........\...\editsystem.m
..........\...\findjobj.m
..........\...\findjobj_license.txt
..........\...\gui_BP.m
..........\...\gui_BPC.m
..........\...\gui_ConnecHet.m
..........\...\gui_ConnecHom.asv
..........\...\gui_ConnecHom.m
..........\...\gui_ConnecHSN.m
..........\...\gui_DO.m
..........\...\gui_EP.m
..........\...\gui_H.m
..........\...\gui_Het.m
..........\...\gui_Hom.asv
..........\...\gui_Hom.m
..........\...\gui_HSN.m
..........\...\gui_HTHet.asv
..........\...\gui_HTHet.m
..........\...\gui_HTHom.asv
..........\...\gui_HTHom.m
..........\...\gui_HTHSN.asv
..........\...\gui_HTHSN.m
..........\...\gui_LC.m
..........\...\gui_LP.m
..........\...\gui_LPC.m
..........\...\gui_NS.m
..........\...\gui_O.m
..........\...\gui_PD.m
..........\...\Hom_Callback.m
..........\...\HT_Callback.m
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