MATLAB continuation software package CL_MATCONTL The study of differential equations requires good and powerful mathematical software. Also, a flexible and extendible package is important. A powerful and widely used environment for scientific computing is Matlab. The aim of MatCont and Cl_MatCont is to provide a continuation and bifurcation toolbox which is compatible with the standard Matlab ODE representation of differential equations. MatCont is a graphical Matlab package for the interactive numerical study of dynamical systems. It is developed in parallel with the command line continuation toolbox Cl_MatCont. The package (Cl_)MatCont is freely available for non-commercial use on an as is basis. It should never be sold as part of some other software product. Also, in no circumstances can the authors be held liable for any deficiency, fault or other mishappening with regard to the use or performance of (Cl_)MatCont

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  1. Klimina, L. A.: Method for constructing periodic solutions of a controlled dynamic system with a cylindrical phase space (2020)
  2. Hurtado, Paul J.; Kirosingh, Adam S.: Generalizations of the `linear chain trick’: incorporating more flexible dwell time distributions into mean field ODE models (2019)
  3. Klimina, L. A.: Method for finding periodic trajectories of centrally symmetric dynamical systems on the plane (2019)
  4. Uecker, Hannes: Hopf bifurcation and time periodic orbits with \textttpde2path -- algorithms and applications (2019)
  5. Atabaigi, Ali; Akrami, Mohammad Hossein: Dynamics and bifurcations of a host-parasite model (2017)
  6. de Blank, H. J.; Kuznetsov, Yu. A.; Pekkér, M. J.; Veldman, D. W. M.: Degenerate Bogdanov-Takens bifurcations in a one-dimensional transport model of a fusion plasma (2016)
  7. Kuehn, Christian: Efficient gluing of numerical continuation and a multiple solution method for elliptic PDEs (2015)
  8. Shen, Li-Yong; Pérez-Díaz, Sonia: Numerical proper reparametrization of parametric plane curves (2015)
  9. Wei, Junqiang; Li, Gengyin; Zhou, Ming: Numerical bifurcation and its application in computation of available transfer capability (2015)
  10. Bindel, D.; Friedman, M.; Govaerts, W.; Hughes, J.; Kuznetsov, Yu. A.: Numerical computation of bifurcations in large equilibrium systems in \textscMatlab (2014)
  11. Hughes, J.; Friedman, M.: A bisection-like algorithm for branch switching at a simple branch point (2009)