abstract

• This paper presents a stability analysis for LNDS (Lagrangian nonlinear dynamical systems) with dynamic uncertain using a PID controller with external disturbances rejection based on attractive ellipsoid methods, since the PID-CT (proportional integral derivative computed torque) compensator has been used for the nonlinear trajectory tracking of an LNDS, when there are external perturbations and system uncertainties. The global system convergence of the trivial solution has not been proved. In this sense, we propose an approach to find the gains of the nonlinear PID-CT controller to guarantee the boundedness of the trivial solution by means of the concept of the UUB (uniform-ultimately bounded) stability. In order to show the effectiveness of the methodology proposed, we applied it in a real 2-DoF robot system. © 2015 Jesus Patricio Ordaz Oliver et al.

authors

• Espinoza Quesada E.S.
• García Barrientos Abel
• Ordaz Oliver J.P.
• Ramos Fernandez J.C.

publication date

• 2015-01-01

published in

• Mathematical Problems in Engineering  Journal

keywords

• Dynamical systems; Electric drives; Nonlinear dynamical systems; Three term control systems; Two term control systems; Uncertainty analysis; Attractive ellipsoid methods; External disturbances; External perturbations; Mechanical systems; Proportional integral derivatives; System uncertainties; Trajectory tracking; Ultimately bounded; Proportional control systems

Digital Object Identifier (DOI)

• 10.1155/2015/701415

start page

end page

volume

• 2015