Normal form (dynamical systems)

In mathematics, the normal form of a dynamical system is a simplified form that can be useful in determining the system's behavior.

Normal forms are often used for determining local bifurcations in a system. All systems exhibiting a certain type of bifurcation are locally (around the equilibrium) topologically equivalent to the normal form of the bifurcation. For example, the normal form of a saddle-node bifurcation is ${\frac {\mathrm {d} x}{\mathrm {d} t}}=\mu +x^{2}$ where $\mu$ is the bifurcation parameter. The transcritical bifurcation ${\frac {\mathrm {d} x}{\mathrm {d} t}}=r\ln x+x-1$ near $x=1$ can be converted to the normal form ${\frac {\mathrm {d} u}{\mathrm {d} t}}=\mu u-u^{2}+O(u^{3})$ with the transformation $u=x-1,\mu =r+1$ .^[1]

References

↑ Strogatz, Steven. "Nonlinear Dynamics and Chaos". Westview Press, 2001. p. 52.

Guckenheimer, John; Holmes, Philip (1983), Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields, Springer, Section 3.3, ISBN 0-387-90819-6
Kuznetsov, Yuri A. (1998), Elements of Applied Bifurcation Theory (Second ed.), Springer, Section 2.4, ISBN 0-387-98382-1
Murdock, James (2006). "Normal forms". Scholarpedia. doi:10.4249/scholarpedia.1902. Retrieved 4 December 2016.
Murdock, James (2003). Normal Forms and Unfoldings for Local Dynamical Systems. Springer. ISBN 978-0-387-21785-7.

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[strogatz-1] Strogatz, Steven. "Nonlinear Dynamics and Chaos". Westview Press, 2001. p. 52.

Normal form (dynamical systems)

References

Further reading