In this paper, we present an approach for designing robust tracking controllers for rigid-link flexible-joint (RLFJ) robot manipulators with redundant actuators in the joints. With the proposed controller, we prove that the link tracking error is globally uniformly ultimately bounded (GUUB) in spite of additive bounded disturbances, parametric uncertainty, and other modeling uncertainty. We also illustrate how the load at each joint is shared by two actuators. Finally simulation results are presented to illustrate the effectiveness of the proposed controller
A flexible joint robot manipulator can be regarded as a cascade of two subsystems: link dynamics and...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
In this paper, we present an approach for designing robust tracking controllers for rigid-link flexi...
This paper presents an approach for designing a robust position tracking controller for rigid-link f...
This paper presents an approach for designing a robust position tracking controller for rigid-link f...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
This paper presents the first input-output robust control design for the trajectory following proble...
A hybrid adaptive tracking controller for rigid-link flexible-joint (RLFJ) robot manipulators is des...
Abstract — In this paper a new and completely linear algo-rithm is proposed for composite robust con...
A flexible joint robot manipulator can be regarded as a cascade of two subsystems: link dynamics and...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
In this paper, we present an approach for designing robust tracking controllers for rigid-link flexi...
This paper presents an approach for designing a robust position tracking controller for rigid-link f...
This paper presents an approach for designing a robust position tracking controller for rigid-link f...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
The problem of robot manipulator controller design in the presence of joint flexibility is addressed...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents the first input-output robust control design for the trajectory following proble...
This paper presents a solution to the global adaptive partial state feedback control problem for rig...
This paper presents the first input-output robust control design for the trajectory following proble...
A hybrid adaptive tracking controller for rigid-link flexible-joint (RLFJ) robot manipulators is des...
Abstract — In this paper a new and completely linear algo-rithm is proposed for composite robust con...
A flexible joint robot manipulator can be regarded as a cascade of two subsystems: link dynamics and...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
Robust control of a general class of uncertain nonlinear systems is investigated. The class of nonli...
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