Add to ORKGThis paper presents a robust adaptive feedback linearizing control law to solve the integrated kinematic and dynamic trajectory tracking problem of nonholonomic mechanical systems in presence of parametric and nonparametric uncertainties. An adaptive nonlinear control law is proposed based on input-output feedback linearization technique to get asymptotically exact cancellation of the parametric uncertainty in the system parameters. Then, a leakage modification is applied to modify integral action of the adaptation law to compensate for the nonparametric uncertainties due to friction and unmodeled dynamics. Simulation results are presented to illustrate the robustness and tracking performance of the proposed controller
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
Abstract—The position/force tracking control of Lagrangian mechanical systems with classical nonholo...
Abstract In this paper, an adaptive nonlinear friction compensation scheme for second-order nonlinea...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
We consider the tracking control of a nonholonomic mobile robot with parameter uncertainty and unkno...
Two adaptive control schemes for nonlinear mechanical systems, proposed by Slotine and Li (1987, 198...
Abstract—In this brief, an adaptive robust control (ARC) scheme with compensation for nonlinearly pa...
Abstract—The motion/force tracking control of nonholonomic mechanical systems with affine constraint...
The wheeled mobile robot with differential thrust consists of two independent active wheels and a pa...
The wheeled mobile robot with differential thrust consists of two independent active wheels and a pa...
We present a direct adaptive tracking control scheme for nonlinear systems that do not have a well d...
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
Abstract—The position/force tracking control of Lagrangian mechanical systems with classical nonholo...
Abstract In this paper, an adaptive nonlinear friction compensation scheme for second-order nonlinea...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
In this paper, the trajectory tracking control problem of uncertain nonholonomic mechanical systems ...
We consider the tracking control of a nonholonomic mobile robot with parameter uncertainty and unkno...
Two adaptive control schemes for nonlinear mechanical systems, proposed by Slotine and Li (1987, 198...
Abstract—In this brief, an adaptive robust control (ARC) scheme with compensation for nonlinearly pa...
Abstract—The motion/force tracking control of nonholonomic mechanical systems with affine constraint...
The wheeled mobile robot with differential thrust consists of two independent active wheels and a pa...
The wheeled mobile robot with differential thrust consists of two independent active wheels and a pa...
We present a direct adaptive tracking control scheme for nonlinear systems that do not have a well d...
A systematic way to combine adaptive control and sliding mode control (SMC) for trajectory tracking ...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...
The tracking problem is considered for robot manipulators with unknown parameters and dynamic fricti...