Title :
Stability of nonlinear systems described by a second-order vector differential equation
Author :
Chiang, Hsiao-Dong ; Wu, Felix F.
Author_Institution :
California Univ., Berkeley, CA, USA
fDate :
6/1/1988 12:00:00 AM
Abstract :
The stability of a class of nonlinear dynamical systems described by a second-order vector differential equation Md2 x/dt2+Ddx/dt+f( x)=0 is considered. It is shown that for such systems all the equilibrium points are hyperbolic. Moreover, that the number of right half plane eigenvalues of the system Jacobian matrix depends only on f(x), independent of the elements of M and D. The asymptotic behavior of the trajectories of the system is studied, showing that every bounded trajectory (x(t), dx(t)/dt) of the system converges to one of the equilibrium points as t approaches ∞. It is also shown that without the transversality condition, the stability boundary of the second-order system is contained in the union of the stable manifolds of the equilibrium points on the stability boundary and that the stability region of the second-order system is unbounded
Keywords :
control system analysis; differential equations; eigenvalues and eigenfunctions; nonlinear systems; stability; Jacobian matrix; asymptotic behavior; bounded trajectory; dynamical systems; hyperbolic equilibrium points; nonlinear systems; right half plane eigenvalues; second-order system; second-order vector differential equation; stability; stable manifolds; trajectories; Asymptotic stability; Circuit stability; Differential equations; Jacobian matrices; Nonlinear dynamical systems; Nonlinear systems; Power system modeling; Power system stability; Stability analysis; Symmetric matrices;
Journal_Title :
Circuits and Systems, IEEE Transactions on
